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Home My WebLink AboutPermit M15-0167 - BOEING #9-101 - VACUUM PUMP UPGRADESBOEING #9-101 VACUUM PUMP UPGRADE 9725 E MARGINAL WAY S EXPIRED 08/15/16 M 15-0167 Parcel No: Address: Project Name: City of Tu.kwila... Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206-431-3670 Inspection Request Line: 206-438-9350 Web site: http://www.TukwilaWA.gov MECHANICAL PERMIT 0003400018 Permit Number: 9725 E MARGINAL WAY S BLDG 9-101 Issue Date: Permit Expires On: BOEING #9-101 - VACUUM PUMP UPGRADES M 15-0167 2/17/2016 8/15/2016 Owner: Name: BOEING COMPANY THE Address: PO BOX 3707 M/C 20-00 PROPERTY TAX DEPT, SEATTLE, WA, 98124 Contact Person: Name: JOHN S MURDOCH Address: PO BOX 3707 M/C 46-88 , SEATTLE, WA, 98124 Contractor: Name: DESIGN AIR LTD Address: 3051 EAST VALLEY RD , RENTON, WA, 98057 License No: DESIGL*212DG Lender: Name: Address: Phone: (253) 740-0214 Phone: (253) 854-2770 Expiration Date: 3/7/2016 DESCRIPTION OF WORK: REPLACE (6) EXISTING VACUUM PUMPS Valuation of Work: $268,000.00 Type of Work: REPLACEMENT Fuel type: ELECT Fees Collected: $3,230.38 Electrical Service Provided by: SEATTLE CITY LIGHT Water District: TUKWILA Sewer District: TUKWILA SEWER SERVICE,VALLEY VIEW SEWER SERVICE Current Codes adopted by the City of Tukwila: International Building Code Edition: International Residential Code Edition: International Mechanical Code Edition: Uniform Plumbing Code Edition: International Fuel Gas Code: 2012 2012 2012 2012 2012 National Electrical Code: WA Cities Electrical Code: WAC 296-46B: WA State Energy Code: 2014 2014 2014 2012 Permit Center Authorized Signature: I fiti9 Date: I hearby certify that I have read and examined this permit and know the same to be true and correct. All provisions of law and ordinances governing this work will be complied with, whether specified herein or not. The granting of this permit does not presume to give authority to violate or cancel the provisions of any other state or local laws regulating construction or the performance of work. I am authorized to sign and obtain this development permit and agree to the conditions attached to this permit. C Signature:, Print Name: f ( I Date: � / i ".7l ?0/ This permit shall become null and void if the work is not commenced within 180 days for the date of issuance, or if the work is suspended or abandoned for a period of 180 days from the last inspection. PERMIT CONDITIONS: 1: VALIDITY OF PERMIT: The issuance or granting of a permit shall not be construed to be a permit for, or an approval of, any violation of any of the provisions of the building code or of any other ordinances of the City of Tukwila. Permits presuming to give authority to violate or cancel the provisions of the code or other ordinances of the City of Tukwila shall not be valid. The issuance of a permit based on construction documents and other data shall not prevent the Building Official from requiring the correction of errors in the construction documents and other data. 2: ***MECHANICAL PERMIT CONDITIONS*** 3: All mechanical work shall be inspected and approved under a separate permit issued by the City of Tukwila Permit Center (206/431-3670). 4: All permits, inspection record card and approved construction documents shall be kept at the site of work and shall be open to inspection by the Building Inspector until final inspection approval is granted. 5: Manufacturers installation instructions shall be available on the job site at the time of inspection. PERMIT INSPECTIONS REQUIRED Permit Inspection Line: (206) 438-9350 1800 MECHANICAL FINAL 0701 ROUGH -IN MECHANICAL CITY OF TUKWtLA Community Development Department Permit Center 6300 Southcenter Blvd, Suite 100 Tukwila, WA 98188 http://www.TukwilaWA.gov Mechanical Permit No. fCS' 0 / io 7 Project No. Date Application Accepted: Date Application Expires: (For office use only) MECHANICAL PERMIT APPLICATION Applications and plans must be complete in order to be accepted for plan review. Applications will not be accepted through the mail or by fax. **please print** SITE LOCATION King Co Assessor's Tax No.: 5624200990 Site Address: 9725 East Marginal Way So Suite Number: 9-101 Floor: 2 Tenant Name: The Boeing Company - John S. Murdoch PROPERTY OWNER Name: The Boeing Company - John S. Murdoch Address: P.O. Box 3707 M/C 46-88 City: Seattle State: WA Zip: 98124 CONTACT PERSON — person receiving all project communication Name: John S. Murdoch - The Boeing Company Address: P.O. Box 3707 M/C 46-88 City: Seattle State: WA Zip: 98124 Phone: (253) 740-0214 Fax: Email: john.s.murdoch@boeing.com New Tenant: ❑ Yes .. No MECHANICAL CONTRACTOR INFORMATION Company Name: Design Air Address: 3050 East Valley Road City: Renton State: WA Zip: 98057 Phone: (253) 854-6131 Fax: Contr Reg No.: DESIGL*212DG Exp Date: 3' .- /20 Tukwila Business License No.: 3V S _octet 45 ct s Valuation of project (contractor's bid price): $ 268,000 Describe the scope of work in detail: Replace (6) Existing vacuum pumps. Use: Residential: New ❑ Replacement ❑ Commercial: New ❑ Replacement (�J Fuel Type: Electric 0 Gas ❑ Other: H \ApplicntimaWorna-Applications On Line \2011 Applicntionu\Mechanical Permit Application Revised 8-9-1 I.doeN Revised' August 2011 bIt Page 1 of 2 Indicate type of mechanical work being installed and the quantity below: Unit Type Qty Furnace '100k btu Furnace =-100k btu Floor furnace Suspended wall floor mounted heater Appliance vent Repair or addition to heat refrig cooling system Air handling unit -' 10.000 cfm Unit Type Qty Air handling unit •10.000 cfm Evaporator cooler Ventilation fan connected to single duct Ventilation system Hood and duct Incinerator — domestic Incinerator — comm industrial Unit Type Qty Fire damper Diffuser Thermostat Wood gas stove Emergency venerator Other mechanical equipment Boiler/Compressor Qty 0-3 hp 100.000 btu 3-15 hp 500.000 btu I5-30 hp 1.000,000 btu 30-50 hp 1.750.000 btu 50— hp 1350.000 btu PERMIT APPLICATION NOTES - Value of construction — in all cases. a value of construction amount should be entered b\ the applicant. This figure \kill be reviewed and is subject to possible revision by the permit center to comply with current fee schedules. Expiration of plan review — applications for which no permit is issued \\ithin 180 days following the date of application shall expire by limitation. The building official may grant one extension of time for additional periods not to exceed 90 days each. The extension shall be requested in writing and justifiable cause demonstrated. Section 105.3.2 International Building Code (current edition). I HEREBY CERTIFY THAT I HAVE READ AND EXAMINED THIS APPLICATION AND KNOW THE SAME TO BE TRUE UNDER PENALTY OF IURYY THE LAWS OF THE STATE OF WASHINGTON. AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT. BUILDING ON Signature: Print Name: �v ohn S. Murdoch N T: �r Date: 12/ 15/201 5 T Ce KG i0 �ul�d�i✓ Day Telephone: (253) 74 0-0214 Seattle WA 98124 City State Zip Mailing Address: P.O. Box 3707 M/C 46-88 H Applicanmis Ft, on. Applications On Lor 2nI I Appbc.aticir. \Icc ltamaal Penns Applmat ton Rcuscd 8-II-I I does Rcs sod AnLnst 2i,I I bit Pane 2 of 2 Cash Register Receipt , City of Tukwila DESCRIPTIONS ACCOUNT QUANTITY PermitTRAK PAID $2,609.15 M15-0167 Address: 9725 E MARGINAL WAY S BLDG 9-101 Apn: 0003400018 $2,609.15 MECHANICAL $2,484.90 PERMIT ISSUANCE BASE FEE R000.322.100.00.00 0.00 $32.50 PERMIT FEE R000.322.100.00.00 0.00 $2,452.40 TECHNOLOGY FEE $124.25 TECHNOLOGY FEE TOTAL FEES PAID BY RECEIPT: R7571 R000.322.900.04.00 0.00 $124.25 $2,609.15 Date Paid: Monday, February 01, 2016 Paid By: design air Pay Method: CHECK 102625 Printed: Monday, February 01, 2016 3:53 PM 1 of 1 CRWSYSTEMS DESCRIPTIONS I ACCOUNT QUANTITY I PAID PermitTRAK $621.23 M15-0167 Address: 9725 E MARGINAL WAY S BLDG 9-101 Apn: 0003400018 $621.23 MECHANICAL $621.23 PLAN CHECK FEE TOTAL FEES PAID BY RECEIPT: R6907 R000.322.102.00.00 0.00 $621.23 $621.23 Date Paid: Thursday, December 17, 2015 Paid By: JULIE JONDAHL Pay Method: CREDIT CARD 003994 Printed: Thursday, December 17, 2015 1:43 PM 1 of 1 1.51 LM 5 ,WOotl Harbinger REVIEWED FOR CODE COMPLIANCE APPROVED JA,J 0 4 2015 Al 3oog with Ave NE, Suite too Bellevue, WA 98004 425.628.6o00 — woodharbinger.com Boeing Developmental Center - Vacuum Pump Upgrades S•ecifications FILE Issue for Construction October 23, 2015 SUBMITTED TO: The Boeing Company REVIEWED FOR CODE COMPLIANCE APPROvED Jr.. i City of Tukwila BUILDING DIVISION . RECEIVED CITY OF TUKWILA DEC 1 6 2015 PERMIT CENTER t11SOI&7 Awl/z BOEING DEVELOPMENTAL CENTER VACUUM PUMP UPGRADES October 23, 2015 DOCUMENT 00 01 07 SEALS PAGE The undersigned hereby certifies that the Divisions 20, 22, and 23 Technical Specifications in this Project Manual were prepared by me or under my direct supervision, and that I am duly registered under the laws of the State of Washington and hereby affix my "Professional Seal". Wood Harbinger, Inc. Richard P. Juntunen, PE The undersigned hereby certifies that the Division 26 Technical Specifications in this Project Manual were prepared by me or under my direct supervision, and that I am duly registered under the laws of the State of Washington and hereby affix my "Professional Seal". Wood Harbinger, Inc. Anthony L. Jurcan, PE END OF DOCUMENT 00 01 07 - 1 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES DOCUMENT 00 01 10 TABLE OF CONTENTS DOCUMENT NUMBER DOCUMENT TITLE DIVISION 00 - INTRODUCTORY INFORMATION Document 00 01 07 Document 00 01 10 Seals Page Table of Contents SECTION NUMBER SECTION TITLE DIVISION 20 — COMMON WORK RESULTS FOR PLUMBING AND HVAC Section 20 02 00 Section 20 03 00 Section 20 04 00 Section 20 91 00 DIVISION 22 — PLUMBING Section 22 62 00 General Provisions for Plumbing and HVAC Basic Materials and Methods for Plumbing and HVAC Pipe, Valves, and Fittings for Plumbing and HVAC Commissioning Process Vacuum System DIVISION 23 — HEATING, VENTILATING, AND AIR CONDITIONING (HVAC) Section 23 07 00 Section 23 20 00 Section 23 30 00 DIVISION 26 — ELECTRICAL Section 26 00 10 Section 26 05 00 Section 26 05 20 Section 26 05 26 Section 26 05 30 Section 26 28 13 Section 26 28 15 Section 26 33 54 HVAC Insulation HVAC Piping HVAC Air Distribution Electrical Provisions Common Work Results for Electrical Wires and Cables (600 Volts and Less) Grounding and Bonding for Electrical Systems Raceway and Boxes Fuses Safety Switches Small Static Uninterruptible Power Supplies END OF DOCUMENT 000110-1 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES SECTION 20 02 00 GENERAL PROVISIONS FOR PLUMBING AND HVAC PART 1 - GENERAL 1.01 SECTION INCLUDES A. The Work under Divisions 20, 22, and 23 includes furnishing materials, equipment, labor, supervision, tools and items necessary for the construction, installation, connection, testing and operation of mechanical work for this project, as shown on the Drawings and defined in Divisions 20, 22, and 23 of the Specifications. 1.02 QUALITY ASSURANCE A. Substitutions: 1. Whenever any material or equipment is specified by patent or proprietary name or by the name of the manufacturer, such specification establishes the standard of quality in that particular field of manufacture. 2. When approved substitute equipment or material necessitates revisions to the Drawings or involves other trades, include drawings and details showing such changes, and coordinate and assume any liability from the affected trades. 3. Acceptance: The acceptance of a manufacturer's name or product by the Boeing Construction Manager does not relieve the Contractor of the responsibility for providing materials and equipment which comply in details with the requirements of the Contract Documents. B. Tests: Demonstrate that equipment operates as indicated as specified, and in accordance with the manufacturer's recommendations. Perform tests in the presence of the Boeing Construction Manager. Provide instruments and personnel required to conduct the tests. C. Qualifications: Use sufficient journeymen and competent supervisors in the execution of the Work to ensure proper and adequate installation throughout. In the acceptance of installed work, no allowance will be made for lack of skill on the part of the workmen. 1.03 WORK OF OTHER TRADES A. The Drawings do not show complete details of the building construction. Refer to the architectural, structural, civil, and electrical Drawings for those details which may affect the execution of this Work. Specific locations of structural or architectural features or equipment items shall be obtained from field measurements or the trade providing the material or equipment. No extra payments will be allowed for failure to obtain this information. B. Coordination: Plan and execute Work including, but not limited to, piping and ductwork, in cooperation with other trades. Make every reasonable effort to provide timely notice of work affecting other trades to prevent conflicts or interference as to space requirements, dimensions, openings, block -outs, sleeving or other matters which will cause delays or necessitate work -around methods. Failure to coordinate Work will be considered sufficient cause for Work to be altered at Contractor's expense, as directed by Boeing Construction Manager. 200200-1 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 1.04 EXISTING CONDITIONS A. Demolition work required is noted on the Drawings. Specific scope of demolition work and operating conditions to be encountered shall be verified from on -site review and coordination with the Boeing Construction Manager. Maintain service to existing equipment and devices to be retained in area adjacent to the existing areas scheduled for renovation. Provide temporary services as necessary to meet these conditions. B. Special Protection: Exercise maximum precaution to provide positive protection for the existing building and equipment from damage of any kind, and in particular prevent any water and dust seepage into the existing building. 1.05 CODES, PERMITS, INSPECTIONS, AND FEES A. Obtain permits and inspections and pay fees required by National, State and Local authorities. Make arrangements for inspections by the Boeing Construction Manager or other authority as required. Submit 3 copies of certificates of compliance to the Boeing Construction Manager. B. Work and materials shall be in accordance with requirements of applicable codes, regulations, ordinances, and local amendments including, but not limited to, the following. 1 2012 International Building Code. 2. 2012 International Mechanical Code. 3. 2012 Uniform Plumbing Code. 4. 2012 International Fire Code. 5. 2012 Washington State Energy Code. 6. National Electrical Code. 7. State of Washington standards, WAC-296-24, General Safety and Health Standards. 8. American National Standard Code for Pressure Piping, Chapter V (ANSI B31.1). C. Nothing in Drawings and Specifications shall be construed to permit Work not in conformance with these rules and regulations. D. Where Drawings or Specifications call for material or construction of a better quality or larger sizes than required by the above -mentioned rules and regulations, the provisions of the Drawings or Specifications shall take precedence over requirements of the rules and regulations. E. Utilities: Comply with rules and requirements of local utility companies; coordinate and pay for connections. 1.06 EQUIPMENT AND MATERIALS APPROVALS A. Whenever UL listed standards exist for equipment with electrical components, provide UL listed equipment. Otherwise provide equipment certified by the manufacturer as complying with UL standards for similar items. B. Materials, equipment, and processes requiring approval of the Washington State Department of Labor and Industries or other nationally -recognized testing agency shall be labeled as so approved in accordance with the provisions of the Washington Administrative Code. 200200-2 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 1.07 INTENT OF DRAWINGS A. Drawings are diagrammatic and show only approximate locations of piping, ducts, fixtures, and equipment. Take measurements from building or site and verify with Drawings. Because of the small scale of the Drawings, it is not possible to indicate all offsets, fittings, and accessories that may be required. Carefully investigate the plumbing, fire protection, electrical, structural, and finish conditions that would affect the Work to be performed and arrange such work accordingly, providing required ductwork and piping offsets, fittings, and accessories to meet such conditions. B. It is the responsibility of the Contractor to provide equipment that fits into the space allotted and allows adequate acceptable clearances for installation, replacement, entry, servicing, and maintenance. When motors furnished are larger than sizes indicated, provide any required changes to the electrical services as may be necessary and related work as a part of the Work for the Section specifying that motor. C. Report any conflict to Boeing Construction Manager prior to proceeding with the Work. Failure to follow this instruction is considered sufficient cause to alter the Work, at no cost to the Boeing Construction Manager, as directed by the Boeing Construction Manager. D. Plans and sections generally do not show all isolating valves, control valves, instruments, or other components; refer to diagrams or schematics to obtain a more complete description of systems. 1.08 DETAIL DRAWINGS BY CONTRACTOR A. Wherever the Work is of sufficient complexity to warrant additional detailing, prepare additional detail drawings to scale 1/4 inch = 1 foot, prepared on AutoCAD Version 2007 or later the same size as Contract Drawings; with these layouts, coordinate work with the work of other trades. All such detailing work shall be clearly identified on the drawings as to the area to which it applies. B. Do not submit these drawings to the Boeing Construction Manager for approval. At completion, however, include a set of such drawings with each set of as -built drawings for Boeing Construction Manager's record purposes. 1.09 SUBMITTALS A. Submit Shop Drawings, descriptive bulletins, data sheets, diagrams, catalog cuts or other additional information as required for the items specified hereinafter in other Sections. B. Submittal Procedures: 1. Submit transmittal to Boeing Construction Manager for review by Boeing Construction Manager. 2. Submit as specified under individual Sections. Submittals not required will not be recognized or processed. 3. Submit in timely manner as necessary to complete Work of this Contract within Contract Time. C. Submittal Format: 1. Transmittal Form: Accompany each submittal with transmittal letter. Do not address more than one topic or portion of the Work on each transmittal. 2. Submittal Numbering: Sequentially number transmittal forms in order submitted. Add alphabetic suffix to original submittal number to resubmittals. 200200-3 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 3. Submittal Identification: Include Project, Contractor, subcontractor, supplier, Specification Section number, manufacturer, product, and material as appropriate. 4. Contractor's Certification: Apply Contractor's stamp, signed or initialed, certifying that Contractor has performed review, verification of products required, field dimensions, coordination of information for items submitted and related systems, and that submittal is in accordance with the requirements of Contract Documents. 5. Variance from Contract Document Requirements: Bring any variation from requirements of Contract Documents by means of written explanation on submittal transmittal letter and by indication on submittal Shop Drawings, Product Data, or other types of submittals. D. Boeing Construction Manager's Review: 1. Boeing Construction Manager is responsible for reviewing submittals as verification to the design intent and conformance to provisions of Contract Documents. 2. Boeing Construction Manager's Review Does Not Relieve Contractor From: a. Dimensions to be confirmed and correlated at the jobsite; information that pertains solely to the fabrication processes or to the means, methods, techniques, sequences and procedures of construction; coordination of the Work with that of all other trades and performing all Work in a safe and satisfactory manner. 3. Boeing Construction Manager will provide comments for each submittal. E. Processing and Turn -Around Time: Allow minimum 14 calendar days from time of receipt by Boeing Construction Manager for each submittal and each subsequent required resubmittal. F. Resubmittals: Revise initial submittal as directed, and resubmit. Follow procedures specified for the initial submittal. Make corrections or changes in the submittals required by Boeing Construction Manager. G. Product Data: 1. Number: Submit 4 copies, except as otherwise specified, plus additional copies that Contractor will require for distribution to its own forces. 2. Maintain one copy for Project Record Documents to be delivered to Boeing Construction Manager at Project Completion. 3. Identification: Mark each copy to identify specific products, models, options, tolerances, dimensions, and other pertinent data. H. Design Data and Test Reports: 1. Number: Submit 4 copies each. 2. Content: Include information necessary for assessing conformance with and design concept expressed by Contract Documents. Acceptance: The acceptance of a manufacturer's name or product by the Boeing Construction Manager does not relieve the Contractor of the responsibility for providing materials and equipment which comply in details with the requirements of the Contract Documents. 1.10 MATERIALS A. Quality: Materials, products, and equipment shall be in strict accordance with governing codes and ordinances. 20 02 00 - 4 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES B. Quantity: Equipment and items of any one classification which are used in quantity, such as accessories, valves, specialties, cleanouts, drains, fittings, fans, air handling units etc., shall be products of one manufacturer and shall be used only for services recommended by the manufacturer. 1.11 ABBREVIATIONS, DEFINITIONS, AND REFERENCE STANDARDS A. Reference standards, definitions, and abbreviations are as follows. AASHTO American Association of State Highway Transportation Officials AGA American Gas Association AISC American Institute of Steel Construction AMCA Air Moving and Conditioning Association ANSI American National Standards Institute AHRI Air -Conditioning, Heating, and Refrigeration Institute ASHRAE American Society of Heating, Refrigerating and Air -Conditioning Engineers ASME American Society of Mechanical Engineers ASTM American Society for Testing and Materials AWS American Welding Society AWWA American Water Works Association as shown as shown on the Drawings CAGI Compressed Air and Gas Institute CISPI Cast Iron Soil Pipe Institute CSA Canadian Standards Institute F Degrees Fahrenheit FRP Fiberglass reinforced plastic FM FM Global ICBO International Conference of Building Officials IBC International Building Code mA milliamps iwc inches water column MSS Manufacturer's Standardization Society mV millivolts NEMA National Electrical Manufacturer's Association NEC National Electrical Code NFPA National Fire Protection Association provide furnish and install psig pounds per square inch gage pressure SMACNA Sheet Metal and Air Conditioning Contractors National Association SPDT Single Pole, Double Throw UL Underwriters Laboratories, Inc. V Volts VAC Volts, Alternating Current VDC Volts, Direct Current wp Working Pressure (psig) wg Water Gage 1.12 OPERATION AND MAINTENANCE MANUALS A. Prepare an operation and maintenance manual for equipment provided under Divisions 20, 22, and 23 in accordance with the following paragraphs. B. Draft Copy: Prior to the final copies, submit a single draft copy to the Boeing Construction Manager for approval. 200200-5 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES C. Final Copy: 1. Submit 1 PDF electronic file. 2. Submit 3 copies in paper format. D. Format for Operation and Maintenance Manuals: 1. Compile Product Data and related information appropriate for r maintenance and operation. Prepare data in instructional manual form for use by Boeing Construction Manager's personnel. Modify data as required to accurately represent completed installations. 2. Paper Format: a. Binders: Commercial quality, 3 hole punched, vinyl covered hardboard binder, secured with aluminum screw posts, sized for 8-1/2 by 11 inch sheet format. Do not exceed 3-1/2 inch binder width. b. Binder Cover: Identify each Manual with printed title, "OPERATION AND MAINTENANCE INSTRUCTIONS", Project Title, identification of subject matter contained in manual, and completion date of Project. Include names of Boeing Construction Manager, General Contractor, and major suppliers. c. Binder Edge: The binder edge shall be imprinted with the name of the job, Boeing Construction Manager, and completion date of Project. d. Provide tabbed dividers for each separate product and system, with typed description of product and major component parts of equipment. e. Text: Manufacturer's printed data, or neatly typewritten information on 20 pound white or off-white paper. f. Drawings: Provide with reinforced punched binder tab. Bind in with text; fold larger Drawings to size of text pages. 3. PDF Electronic File: a. Assemble same content as paper format in the form of a multiple file composite electronic PDF file. b. Use electronic files prepared by manufacturer where available. Where scanning of paper documents is required, configure scanned file for minimum readable file size. c. Name each indexed document file in composite electronic index with applicable item name. Include a complete electronically linked operation and maintenance directory. Enable bookmarking of individual documents based on file names. Name document files to correspond to system, subsystem, and equipment names used in manual directory and table of contents. Group documents for each system and subsystem into individual composite bookmarked files, then create composite manual, so that resulting bookmarks reflect the system, subsystem, and equipment names in a readily navigated file tree. Configure electronic manual to display bookmark panel on opening file. E. Contents of Manuals: 1. Project Directory: Indicate Project title and Project number. List Boeing Construction Manager, Consultants, and Contractor with addresses, telephone numbers, and name of responsible parties. 2. Product Directory: List names, addresses, and telephone numbers of subcontractors and suppliers. Included local sources of supplies and replacement parts. Provide information for re -ordering custom manufactured products. 3. Product Data: Submit original product literature. Photo -copies are not acceptable. Mark each sheet to clearly identify specific products, models numbers, components parts, and data applied to installation. Delete inapplicable information by marking out, striking out, or by notation. 200200-6 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 4. Drawings and Diagrams: Include as necessary to supplement Product Data. Illustrate relations or components parts or equipment and systems. Show wiring, control, and flow diagrams. Do not use Project Record Documents as maintenance Drawings. 5. Written Text: Include as necessary to supplement Product Data. Provide logical sequence of instructions for each procedure, incorporating manufacturer's instructions. 6. Provide information sheet for Boeing Construction Manager's personnel indicating proper procedures in event of failure. Include instances which may affect validity of warranties. 7. Each Item of Equipment and Each System: Include description of system, and component parts. Identify function, normal operating characteristics, and limiting conditions. Include complete nomenclature and model number of replaceable parts. 8. Operating Procedures: Provide manufacturer's printed operation and maintenance instructions. Include the following. a. Startup, break-in, and routine normal operating instructions and sequences. b. Regulation, control, stopping, shutdown, and emergency instructions. 9. Maintenance Requirements: Include routine procedures and guide for preventive maintenance and troubleshooting; disassembling, repair, and reassemble instructions; and adjusting and checking instructions. 10. Controls: Provide manufacturer's sequence of operation and control diagrams as installed. 11. All Warranty Information: a. Contractor/labor warranty (to include names and phone numbers). b. Parts/system/equipment specific warranties (to include complete list of components). 12. All "pre" and "post" balancing documents on HVAC systems, both Air and Water sides. 13. As -built system drawings, diagrams, etc. 14. Additional Requirements: As specified in individual product Specification Sections. 1.13 RECORD DOCUMENTS A. Record documents shall conform to requirements of the 2012 Washington State Energy Code. B. Furnish record drawings. Show location of equipment and size of piping. Locate valves (with tag numbers), dampers, and similar equipment. Keep Drawings continuously updated during progress of project and ready for reference. Make available to Boeing Construction Manager at site for review prior to each pay request. At the completion of the project, turn over record AutoCAD Disks of updated drawings to the Boeing Construction Manager. 1.14 SITE CONDITIONS AND METHODS A. Cutting and Patching: Keep cutting and patching to a minimum. If required, patching shall conform to Specifications for the new general construction work. Finish to match existing work. B. Measurements: Verify space availability by field measurement prior to submitting Shop Drawings for approval. 200200-7 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES C. Roughing -In Dimensions: Obtain roughing -in dimensions for equipment from approved Shop Drawings or actual equipment measurements. D. Manufacturer's Installation Instructions: Follow manufacturer's written instructions where furnished. If the details are in conflict with the Drawings, notify Boeing Construction Manager for resolution. E. Accessibility: Install products which require periodic servicing or repair so that products are readily accessible. Otherwise, obtain Boeing Construction Manager's approval of location. F. Provision for Light Fixtures: In laying out piping and ductwork, provide a minimum of 8 inches above ceilings to allow clearance for light fixtures. If interferences occur, move the piping or ducts and, if not possible, notify the Boeing Construction Manager. G. Rejected Materials: Remove damaged or rejected materials from the site. H. Operation of Equipment and Systems: Contractor is responsible during periods of balancing and testing. Delivery, Storage, and Handling: 1. Handle, store, and protect equipment and materials to prevent damage before and during installation in accordance with the manufacturer's recommendations and as approved by the Boeing Construction Manager. Replace damaged or defective items. 2. Equipment with damaged factory applied finishes shall be refinished as required to bring the equipment to a like -new condition in accordance with manufacturer's recommendations. 1.15 UTILITY SHUTOFFS A. Provide request for temporary shutoff of any Utility to Boeing Construction Manager at least 7 days in advance of the time a shutoff is required. Include proposed Utility interruption schedule with the request identifying times of disruption to service. Obtain written approval of shutdown request from Boeing Construction Manager prior to any interruption of Utility. 1.16 TESTING AND DEMONSTRATION A. Submit a startup procedure for Boeing Construction Manager to review and approve. Testing shall be documented with test procedures, results and initials of witnessing personnel. B. Perform hydrostatic tests required in codes and ordinances. Boeing Construction Manager will be present during operational testing. Give sufficient notice before performing such tests. C. Systems Operation Demonstration: Subject systems to such operating tests as are required to demonstrate that the equipment installed will operate within the specified limits through normal ranges and sequences including simulation of possible abnormal conditions. Operate every device manually and automatically, in accordance with its purpose. Operating test duration; not less than 6 hours after major corrections have been made. If tests do not demonstrate satisfactory system performance, correct deficiencies and retest systems. 200200-8 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES D. If the Work is completed during the heating season, perform final tests of cooling equipment the following summer. If completed during summer, perform test of heating system the following winter. 1.17 INSPECTION A. When requesting final inspection, submit written certification that the Work has been fully completed in strict accordance with Drawings and Specifications. B. Submit written certification of inspection from the governing building authority stating that Work has been inspected, accepted, and approved as complying with existing governing ordinances and codes. 1.18 FINAL PUNCHLIST A. When Boeing Construction Manager is completing punchlist during final inspection, provide access to devices as requested by Boeing Construction Manager, including ceiling tile removal and replacement. Provide ladders, scaffolds, staging, and accessories required to gain access to devices. PART 2 - PRODUCTS Not Used. PART 3 - EXECUTION 3.01 DEMOLITION EXAMINATION A. Verify field measurements are as shown on Drawings. B. Demolition Drawings are based on field observation and existing record documents. Report discrepancies to Boeing Construction Manager before disturbing existing installation. C. Beginning of demolition means installer accepts existing conditions. D. Provide temporary connections to maintain existing systems in service during construction. When work must be performed on energized equipment, use personnel experienced in such operations. E. Where piping is indicated on Drawings to be abandoned, drain and cap piping unless indicated otherwise. F. Repair adjacent construction and finishes damaged during demolition and extension work. G. Maintain access to existing installations which remain active. END OF SECTION 200200-9 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES SECTION 20 03 00 BASIC MATERIALS AND METHODS FOR PLUMBING AND HVAC PART 1 - GENERAL 1.01 SECTION INCLUDES A. The Work of this Section includes anchor bolts, support channels, housekeeping pads, mechanical identification, seismic restraints, and miscellaneous other basic materials. 1.02 SUBMITTALS A. Seismic Design: Submit calculations, details, Shop Drawings, Product Data, and statement of special inspections for the seismic restraint design of mechanical and electrical nonstructural components in Divisions 20, 22, and 23 to Boeing Construction Manager for Boeing Construction Manager's review. After Boeing Construction Manager's review, Boeing Construction Manager will submit the Boeing Construction Manager's notification with the calculations, details, Shop Drawings, Product Data, and statement of special inspections to the Building Official per 2012 International Building Code section 107.3.4.1. No Work shall be started until the calculations, details, Shop Drawings, Product Data, and statement of special inspections have been approved by the Building Official. If the Contractor -hired professional engineer licensed in the State of Washington determines that the 2012 International Building Code does not require some of the mechanical and electrical nonstructural components in Divisions 20, 22, and 23 to be seismically restrained, then submit a stamped and signed statement from the professional engineer to that effect. 1. Submit a written "Contractor's Statement of Responsibility" to the Boeing Construction Manager and to the Building Official for the construction of the seismic -force -resisting system, designated seismic system, or seismic -resisting component listed in the statement of special inspections per 2012 International Building Code prior to the commencement of Work on the system or component. B. Submit seismic certification of mechanical nonstructural components where such certification is required by Section 1705.12 of the 2012 International Building Code. PART 2- PRODUCTS 2.01 MISCELLANEOUS MATERIALS A. Pipe Sleeves: Schedule 40 galvanized steel pipe with unthreaded ends. B. Anchor Bolts: 1. Anchor Bolts (Cast —In —Place): Galvanized steel bolts conforming to requirements of ASTM A307 and galvanized steel nuts conforming to requirements of ASTM A194. Number and size per manufacturer's recommendations or as shown. In concrete construction, provide bolts set in the formwork before pouring concrete. In building floors where equipment bases are cast iron over 18 inches maximum dimension, provide a pipe sleeve around each bolt to allow for positioning. 2. Anchor Bolts (Expansion Type): Molly "Parabolt" or Hilti "Kwik-Bolt III"; Type 304 stainless steel construction; with impact section on the end of the bolt. 3. Anchor Bolts (Epoxy Type): Hilti "Type HIT-RE-500-SD Epoxy Adhesive" or equivalent; two part anchoring epoxy conforming to requirements of ASTM C881 Type IV; Grades 2 and 3; Classes A, B, and C except for gel time. Galvanized 200300-1 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES steel bolts conforming to requirements ASTM A307 and galvanized steel nuts conforming to requirements of ASTM A194; IBC compliant. C. Support Channels: Unistrut, Cooper B-Line, or Powerstrut; manufacturers shall be members of MFMA; steel support channels shall conform to MFMA "Metal Framing Standards Publication"; non -perforated channels, 12 gage (0.105 inch) minimum, 1-5/8 inch by 1-5/8 inch minimum cross-section size; with hex -head bolt, nut, and spring; galvanized finish unless indicated otherwise. D. Concrete Housekeeping Pads: See Structural Drawings. 2.02 NEW EQUIPMENT, PIPING, AND VALVE IDENTIFICATION A. Valve Tags: Valve tags shall be of 19 gage brass with stamped, black -enamel -filled characters. Provide with brass chain and brass S-hook. At Contractor's option, valve tags may be black and white laminated plastic with lettering engraved through the black cover to the white backing. B. Nameplate's: Laminated black and white plastic with lettering cut through to white background. C. Pipe Markers and Directional Flow Arrows: Semi -rigid plastic or adhesive identification markers and directional flow arrows. Markers shall conform to requirements of ASME A13.1, unless specified otherwise. 2.03 GROUT A. Hydraulic cement -based metallic -aggregate non -shrink grout conforming to requirements of CRD-C-621 Grades B and C and ASTM C1107. 2.04 SPECIAL MAINTENANCE MATERIALS A. Provide for equipment requiring frequent replacement of maintenance materials, such as filters, lubricants, etc.; provide a 3 month supply to the Boeing Construction Manager, together with grease guns or other application devices and instructions. PART 3 - EXECUTION 3.01 ANCHOR BOLTS A. Existing and Modified Concrete Construction: 1. Anchor Bolts (Expansion Type): Use only where necessary to support piping, ductwork, and anchor non -rotating equipment from existing concrete slabs and walls. Install expansion type anchor bolts in holes drilled in concrete. Install anchor bolts through concrete equipment pads, installed into existing structural concrete slabs. 2. Anchor Bolts (Epoxy Type): Use only where necessary to anchor rotating equipment from existing concrete slabs and walls. Install adhesive type anchor bolts in holes drilled in concrete. Install anchor bolts through concrete equipment pads, installed into existing structural concrete slabs. Do not use adhesive type anchor bolts in tension. 3. Powder actuated inserts are not acceptable. 200300-2 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 3.02 SUPPORT CHANNELS A. Attachment of Hangers to Channels: Provide manufacturer's standard locking type inserted nuts, of same manufacturer as channel. 3.03 NEW EQUIPMENT, PIPING, AND VALVE IDENTIFICATION A. Valve Tags: Valves on new piping lines shall be provided with valve tags where the destination is not visible from the valve. Valve tags shall contain the following information. 1. Valve Numbers with a Description of Function: Function shall be indicated on the valve tag. 2. A typewritten list of the tag numbers, showing specific valve location and specific list of rooms affected by valve operation, shall be included in each operation and maintenance manual. 3. Each valve tag shall be numbered chronologically by system and applicable tag number shall be indicated on the as -built drawings. Valve numbering system shall conform to Boeing Construction Manager's existing system. B. Nameplates: Provide for each piece of new equipment, controller, or other device including any special instruction for its use. Each equipment nameplate shall have equipment identification number. C. Identification of New Piping: 1. Piping which is accessible for maintenance operations, including piping concealed above suspended ceilings, shall be identified with pipe markers. 2. Direction of flow arrows shall be included on each identification marker. Wrap directional flow arrow tape full circumference of pipe over each end of identification marker. 3. Locations for Pipe Markers: a. Adjacent to each valve. b. At 20 foot centers maximum for the length of the pipe, but at least one per room. c. At least one marker between any two partitions. d. Pipe markers shall be visible from the floor level. D. Labeling Schedule: Outside Diameter of Pipe or Covering Minimum Length of Color Band Minimum Size of Letter 1/2 inch to 1-1/4 inch 8 inch 1/2 inch 1-1/2 inch to 2 inch 8 inch 3/4 inch 2-1/2 inch to 6 inch 12 inch 1-1/4 inch 8 inch to 10 inch 24 inch 2-1/2 inch Over 10 inch 32 inch 3-1/2 inch E. Identification Marker Color Coding and Marking: Pipe Contents Band Color Letter Color Marker Wording Chilled Water Supply Green White CHWS Chilled Water Return Green White CHWR 200300-3 BOEING DEVELOPMENTAL CENTER VACUUM PUMP UPGRADES October 23, 2015 Pipe Contents Band Color Letter Color Marker Wording Process Vacuum Green White PVAC Process Vacuum Vent Green White V 3.04 EQUIPMENT, DUCTWORK, AND PIPING INSTALLATION A. Welding to Building Structural Members: Not allowed except where approved and as indicated on Drawings. B. Provide supports for equipment, piping, and appurtenances as required, including braces as required for seismic restraint; these include frames or supports for pumps and fans. Steel framework exposed to the weather shall be galvanized after fabrication. C. Manufacturer's Instructions: Equipment, including ductwork and piping appurtenances, shall be installed in strict accordance with manufacturer's instructions. D. Floor -Mounted Equipment, General: 1. Provide machine and floor or foundation fastenings; set equipment on concrete pads. Provide equipment base drawings, bolt -setting information, and anchor bolts for floor mounted equipment. 2. Install equipment at the locations. Set equipment accurately with principal centerlines, and level using manufacturer's leveling screws, blocks, shims, or wedges. Do not distort equipment or baseplates. E. Floor -Mounted Equipment without Vibration Isolation Mountings: 1. Install shims and blocks that are to remain in place on both sides of anchor bolts, sealed in the grout on grouted foundations. 2. Roughen the surface of concrete to receive grout and remove laitance and other loose materials. Set the elevation to the top of the concrete to allow 1/2 to 1-1/2 inches of grout between the machine or structure base and the concrete. Thoroughly moisten the concrete surface immediately before grouting. Leave no free water on the surface. 3. Place non -shrink grout prior to connecting equipment to piping. Mix grout in accordance with manufacturer's recommendations. Dry -Pack or flow grouting may be used depending on the size and configuration of the equipment to be grouted. 4. Work grout in under every part of the equipment base to ensure a complete bearing surface free from air pockets and cavities. Finish the outside edges smooth to allow drainage to drain away from the equipment base. 5. Do not remove forms and shims and do not tighten anchor bolts for at least 24 hours after applying the grout. Do not attach piping to the equipment until after the anchor bolts are tightened. 6. Completely fill pump baseplates with grout. F. Suspended Equipment, Piping, and Ductwork: Supporting elements shall be suitable for stresses imposed by systems, with a safety factor of not less than 5.0. 1. Supports shall not be anchored to metal decking. 2. Supporting elements not shown or specified shall be provided in accordance with SMACNA and NFPA standards. Piping and equipment supports, not otherwise detailed, shall conform to applicable provisions of MSS SP-58. 3. Where it is necessary to frame structural members between existing members or where structural members are used in lieu of commercially rated supports, such 200300-4 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES a supplementary steel shall be provided in accordance with the AISC Specification for the Design, Fabrication and Erection of Structural Steel for Buildings. 4. Welding of structural members, where approved, shall be in accordance with AWS D.1.1. 5. Vibration isolation provisions shall be as indicated or specified. 3.05 SEISMIC A. Seismic Restraints: Seismically restrain mechanical and electrical nonstructural components in Divisions 20, 22, and 23 in accordance with the requirements of the 2012 International Building Code. Mechanical and electrical nonstructural components in Divisions 20, 22, and 23 shall be as defined by ASCE 7. Design of seismic restraints shall allow for the stress of piping and the thermal expansion of piping. 1. Obtain the services of a professional engineer licensed in the State of Washington to prepare the seismic restraint design for mechanical and electrical nonstructural components in Divisions 20, 22, and 23. The professional engineer licensed in the State of Washington shall also prepare a statement of special inspections per requirements of the 2012 International Building Code. Submit calculations, details, Shop Drawings, Product Data, and statement of special inspections for the seismic restraint design of mechanical and electrical nonstructural components in Divisions 20, 22, and 23. If the professional engineer determines that the 2012 International Building Code does not require some of the mechanical and electrical nonstructural components in Divisions 20, 22, and 23 to be seismically restrained, then submit a stamped and signed statement from the professional engineer to that effect. END OF SECTION 200300-5 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES SECTION 20 04 00 PIPE, VALVES, AND FITTINGS FOR PLUMBING AND HVAC PART 1 - GENERAL 1.01 SECTION INCLUDES A. The Work of this Section includes piping, fittings, valves, supports, hangers, and miscellaneous system accessories. 1.02 SUBMITTALS A. Product Data: Manufacturer's data for each product used. B. Test and Evaluation Reports: 1. Pressure tests. C. Certificates: Submit manufacture's current certification sheets stating that the pipe, tubing, fittings, valves, gaskets, and strainers are from an ISO 9000 certified manufacturer. PART 2 - PRODUCTS 2.01 MANUFACTURERS A. General: Pipe, tubing, fitting, valve, gasket, and strainer manufacturers listed below are acceptable. 1. Steel Pipe: U.S. Steel, Wheatland, California Steel, Northwest Pipe, IPSCO, Koppel, or Sharon. 2. Copper Tubing: Mueller, Elkhart Products Corporation, Cerrotube, or Cambridge -Lee Industries. 3. Fittings: Nibco, Mueller, Elkhart Products Corporation, Grabler, Stockham, Walworth, Tube Forgings, Crane, Bonney Forge, Victaulic, Anvil International, Grinnell Mechanical Products, Wheatley, Metraflex, Weld Bend, Capitol, Ameriforge, Boltex, Mills Iron Works, Penn Machine, Commercial Flanges, Ward, or Aeroquip. 4. Valves: Apollo, Centerline, Victaulic, Jenkins, Walworth, Kennedy, Stockham, Anvil International, Nibco, Milwaukee, Powell, Dezurick, Homestead, Watts Regulator, Rockwell-McCanna, Kitz, Red -White, Wheatley, Worcester, FNW, or Mueller. 5. Gaskets: Crane, Garlock, U. S. Rubber, Anchor, or Flexitallic. B. Substitutions: When requesting a substitution for pipe, tubing, fitting, valve, gasket, and strainer manufacturers, submit a current certification sheet with the substitution request stating that the pipe, tubing, fittings, valves, gaskets, and strainers are from an ISO 9000 certified manufacturer. 2.02 STEEL PIPING - GENERAL A. Pressure Ratings: Provide pipe, fittings, accessories, and other components with minimum pressure rating of 150 psig at 230 degrees F. 200400-1 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES B. Pipe: 1. 2 Inches and Smaller: a. Carbon steel conforming to requirements of ASTM A53/A53M, electric -resistance -welded, Grade A, standard weight. b. Carbon steel conforming to the requirements of ASTM A106/A106M, seamless, Grade B, schedule 80. 2. 2-1/2 Inches and Larger: a. Carbon steel conforming to requirements of ASTM A53/A53M, electric -resistance -welded, Grade A, standard weight. b. Carbon steel conforming to the requirements of ASTM A106/A106M, seamless, Grade B, schedule 40. C. Fittings: 1. 2 Inches and Smaller: a. Threaded: Class 150 threaded fitting conforming to requirements of ASME B16.3; black malleable iron conforming to requirements of ASTM A197/A197M. b. Welding: Class 3000 socket -welding fitting conforming to requirements of ASME B16.11; carbon steel forging conforming to requirements of ASTM A105/A105M. 2. 2-1/2 Inches and Larger: a. Welding: Buttwelding fitting conforming to requirements of ASME B16.9; standard weight, seamless wrought carbon steel conforming to requirements of ASTM A234/A234M Grade WPB. Fitting wall thickness shall match pipe wall thickness. b. Grooved Joint: UL listed and FM approved couplings and fittings. Victaulic or equivalent of Anvil International or Grinnell Mechanical Products is acceptable. All couplings and fittings shall be provided by same manufacturer. Gaskets shall be "flush seal" type. D. Unions: 1. 2 Inches and Smaller: Class 300 threaded union conforming to requirements of ASME B16.39; malleable iron conforming to requirements of ASTM A197/197M, brass seat. 2. 2-1/2 Inches and Larger: Use flanges. E. Flanges: 1. 2 Inches and Smaller: Class 150 threaded flange conforming to requirements of ASME B16.5; gray cast iron conforming to requirements of ASTM A126, Class B. 2. 2-1/2 Inches and Larger: Class 150 weld neck or slip-on flange conforming to requirements of ASME B16.5; carbon steel forging conforming to requirements of ASTM A105/A105M. Flange neck thickness shall match pipe wall thickness. Flanges facing flat faced gray cast iron flanges shall have flat face finish. F. Bolting: Hexagon head bolt conforming to requirements of ASTM A193/A193M, Grade B7 and ASME B16.5; hexagon nut conforming to requirements of ASTM A194, Grade 2H and ASME B16.5; dimensions shall conform to requirements of ASME B18.2.1 and ASME B18.2.2; coarse type threads shall conform to requirements of ASME B1.1. G. Gaskets: Nonmetallic gasket conforming to requirements of ASME B16.5 and ASME B16.21, 1/16 inch thickness. Inside bolt circle gasket for use with raised face flanges and full face type for use with flat face flanges. Garlock Style 3000, Durabla Durlon 8500 or approved equal. 200400-2 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES H. Joint Compound: 1. 1 Inch and Smaller: Polytetrafluoroethylene (PTFE) pipe thread tape conforming to requirements of ASTM D3308 and NSF 61. 2. 1-1/4 Inches and Larger: Lead free, non -toxic, non -hardening, pipe joint compound conforming to requirements of NSF 61 and Federal Specification TT-S-1732; Hercules Megaloc or equivalent of Rectorseal, La -Co, or Oatey. Strainers: 1. 2 Inches and Smaller: Cast bronze conforming to requirements of ASTM B62; wye pattern; threaded ends conforming to requirements of ASME B1.20.1 or grooved ends conforming to requirements of this Section; 20-mesh Type 304 stainless steel screen; minimum pressure rating of 150 psig at 230 degrees F. Submit pressure -temperature rating table or graph. 2. 2-1/2 Inches and Larger: Cast iron; wye pattern; Class 125 flanged connection conforming to requirements of ASME B16.1 or grooved ends conforming to requirements of this Section; 20-mesh Type 304 stainless steel screen; minimum pressure rating of 150 psig at 230 degrees F. Submit pressure -temperature rating table or graph. J. Valves, 2 Inches and Smaller: 1. Check: Type 3, Class 125 or Class 150 conforming to requirements of MSS SP-80; cast bronze conforming to requirements of ASTM B62; threaded end connections conforming to requirements of ASME B1.20.1; threaded cap, swing disc, renewable seat and disc. 2. Ball: Two-piece body conforming to requirements of MSS SP-110; full port; solid ball; bronze body; chrome -plated brass ball; brass stem; threaded end connections conforming to requirements of ASME B1.20.1; polytetrafluoroethylene (PTFE) seat and seal. Provide stem extension for use in insulated piping. Valve shall meet minimum pressure rating of 150 psig at 230 degrees F. Submit pressure -temperature rating table or graph. K. Valves, 2-1/2 Inches and Larger: 1. Check: a. Swing Type: Type 3 (metal to metal seat), Class 125 flanged connection conforming to requirements of MSS SP-71 ; gray cast iron body and cover conforming to requirements of ASTM A126 Class B; bolted cover; renewable bronze disc and seat except valves 4 inches and larger may be furnished with gray cast iron disc conforming to requirements of ASTM A126 Class B. b. Butterfly Type: 125 series, cast iron body, aluminum bronze plates, Buna-N seat; Crane "Duo-Chek II" or equal. 2. Butterfly: Tapped lug or grooved end style, ductile iron body, EPDM coated ductile iron or aluminum bronze disc; with memory stop if indicated. Bubble tight to 150 psi. a. Valves 4 Inches and Smaller: Provide notched plate and handle. b. Valves 6 Inches and Larger: Provide worm gear operator with handwheel. 2.03 COPPER PIPING - GENERAL A. Pressure Ratings: Provide pipe, tubing, fittings, accessories, and other components with minimum pressure rating of 150 psig at 230 degrees F. B. Tubing (Pipe), Aboveground: ASTM B88 Type L copper water tube, hard drawn. 200400-3 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES C. Fittings: 1. Wrought copper solder fittings and threaded adapters, ANSI B16.22. 2. Cast copper alloy solder joint fittings and threaded adapters, ANSI B16.18. 3. Use of T-Drill fittings is not permitted. D. Unions: 1. Wrought copper solder joint unions, ANSI B16.22. 2. Cast copper alloy solder joint fittings, ANSI B16.18. E. Flanges and Flanged Fittings: Cast bronze, 125 psig Class, ASME Standards. F. Bolting: Hex head bolts, ASTM A307, Grade B; hexagon nut, ASTM A194; dimensions per ANSI B18.2.1 and ANSI B18.2.2; coarse type threads per ANSI B1.1; bronze plated. G. Gaskets: ANSI B16.21 nonmetallic 1/16 inch thick. Garlock Style 3000. H. Joint Compound: 1. 1 Inch and Smaller: Polytetrafluoroethylene (PTFE) pipe thread tape conforming to requirements of ASTM D3308 and NSF 61. 2. 1-1/4 Inches and Larger: Lead free, non -toxic, non -hardening, pipe joint compound conforming to requirements of NSF 61 and Federal Specification TT-S-1732. Hercules Megaloc, or equivalent of Rectorseal, La -Co, or Oatey. I. Solder: 95 percent tin, 5 percent antimony solder, ASTM B32 Harris "Bridgit" acceptable. Laco flux or similar not permitted. J. Brazing Alloy: Silver brazing; Handy and Harmon "Sil-Fos" or equal of Harris, 1190 degrees F minimum melting temperature. K. Valves: 1. Check: MSS SP80, 150-psig bronze threaded end connections, threaded cap, Y-pattern, swing disc of Teflon, renewable seat and disc. 2. Ball: Two-piece body conforming to requirements of MSS SP-110; full port; solid ball; bronze body; chrome plated brass ball; brass stem; threaded end connections conforming to requirements of ASME B1.20.1; polytetrafluoroethylene (PTFE) seat and seal. Provide stem extension for use in insulated piping. Valve shall meet minimum pressure rating of 150 psig at 230 degrees F. Submit pressure -temperature rating table or graph. 3. Butterfly: Victaulic Series 608 with ductile iron disk with elastomeric coating, wrought copper or cast bronze body; bubble tight shutoff to 300 psi. 2.04 PIPE HANGERS AND SUPPORTS A. Conform to requirements of MSS SP 58. B. Manufacturers: Anvil International, Tolco, Basic Engineering Inc., B-Line, ERICO/Michigan Hanger, PHD, or Pipe Shields. C. Materials: 1. Hanger Material: Match piping material at point of contact with piping. a. Black Steel Pipe: Carbon steel, cast iron, or malleable iron. b. Galvanized Steel Pipe: Carbon steel, cast iron, or malleable with zinc coating. c. Copper Tubing: Carbon steel or malleable iron with copper finish or carbon steel or malleable iron with plastic coating. 200400-4 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES d. Cast Iron Pipe: Carbon steel, cast iron, or malleable iron. 2. Pipe hangers and hanger rods exposed to the weather shall be galvanized. D. Hanger Rods: Hot rolled steel rod, ASTM A36; size to "Code for Pressure Piping", ANSI B31.1, with safety factor of 5; hanger rod size and maximum load listed below. Rod Diameter Pipe Size Load (Inches) (Inches) (Pounds) 3/8 2 and smaller 610 1/2 2-1/2 and 3-1/2 1,130 5/8 4 and 5 1,810 3/4 6 2,710 7/8 8 to 12 3,770 1 14 and 16 4,960 1-1/4 18 to 20 8,000 1-1/2 24 11,630 E. Insulation Inserts: Pipe Shields Inc.; inserts shall consist of high density calcium silicate treated with water repellant in a galvanized sheet steel jacket, both split to fit around the pipe, providing 360 degree coverage and capable of supporting the pipe weight without distortion. The calcium silicate shall be the same thickness as the pipe insulation. The calcium silicate shall extend no less than 1 inch beyond the metal shield ends on cold piping for an effective vapor barrier joint with the pipe insulation. F. Hanger Selection: 1. Bare Pipe: Select to fit outside diameter of pipe. 2. Insulated Pipe: Select to fit outside diameter of insert. G. Ring Hangers: Anvil International Figure 69 or 104. H. Clevis Hangers: Anvil International Figure 260. Pipe Stanchions: Anvil International Figure 63 or equal of Tolco, Basic Engineering Inc., B-Line, ERICO/Michigan Hanger, or PHD; galvanized steel construction. J. Pipe Hangers at Wall: 1. Pipe 2-1/2 Inches and Smaller: Malleable iron one -hole clamp Anvil International Figure 126. 2. Pipe 3 Inches and Larger: Wall bracket, Anvil International Figure 194, 195, or 199 for pipe rings and rod hangers specified herein. 3. Loads not to exceed ratings shown in manufacturer's catalog. K. Pipe Hangers for Vertical Piping: 1. Pipe 1 Inch and Smaller: Steel preformed metal framing, Unistrut P1100 Series with Series P2024 clamps for outside diameter tubing and P2558 Series for pipe; galvanized finish unless indicated otherwise. 2. Pipe 2-1/2 Inches and Smaller: Steel preformed metal framing, Unistrut P1100 Series framing with P2558 Series pipe straps; galvanized finish unless indicated otherwise. 3. Pipe 3 Inches and Larger: Anvil International Figure 261 riser clamp at each floor penetration, intermediate supports Figure 256 pipe alignment guide. 200400-5 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES PART 3 - EXECUTION 3.01 INSTALLATION A. General: 1. Diagrams: Diagrams showing pipe connections are schematic only. Do not use for calculating lineal runs or numbers and types of fittings. 2. Headroom: a. At ceilings, maintain the maximum possible headroom Employ carefully planned arrangements to give the best results. b. In areas of egress, maintain a headroom of 7 feet from the floor to the bottom of an obstruction. 3. Install piping promptly, capping or plugging open ends and making pipe generally level and plumb, free from traps, and in a manner to conserve space for other work. 4. Inspect each piece of pipe, tubing, fittings, and equipment for defects and obstructions; promptly remove defective material from the jobsite. 5. Install pipes to clear beams and obstructions; do not cut into or reduce the size of load carrying members. 6. Use long radius elbows wherever possible. 7. Install piping in accordance with ASME B31.9 "Building Services Piping" and as specified herein. B. Location of Pipe: Piping layout as shown is diagrammatic indicating general arrangement. Determine measurements at jobsite, accurately cutting pipe to suit. Locate piping to avoid interference with building structural members, equipment, and building openings; provide access for operation, service, disconnection, removal and replacement of valves, fixtures, and equipment. C. Cleaning: Clean interior of piping before making joints and placing in position by blowing clean with steam or compressed air. Maintain cleanliness of piping throughout installation; provide caps or plugs on open ends of cleaned piping. D. Unions, Flanges, and Fittings: Provide unions or flanges at valves, fixtures, and equipment if a means of disconnection is not otherwise provided. Provide reducing fittings for changes in pipe size; bushings are not acceptable. Use fittings for changes in direction of piping. E. Routing: Run parallel to column lines and perpendicular to the floor unless shown otherwise on Drawings. F. Leaks: Correct immediately, using new materials; leak -sealing compounds not permitted. G. Concealed Piping: Install piping as concealed Work in finished areas, unless indicated otherwise. Do not cover up or enclose Work until properly and completely inspected and reviewed. Should Work be covered up or enclosed prior to inspections and reviews, uncover Work as required and, after completely inspected and reviewed, make repairs and replacements with materials as necessary and at no additional cost to Owner. H. Dielectric Unions and Flanges: Provide dielectric unions or flanges at each joint between dissimilar metals, except that bronze valves and fittings may be used without dielectric unions or flanges for ferrous -to -ferrous or non -ferrous -to -non-ferrous connections. I. Slope and Connections: Pitch chilled water piping mains not less than 1 inch in 40 feet up in direction of flow. Connect branches to upfeed risers to top of main at 45 degree 200400-6 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES angle and pitch down to main. Connect branches to downfeed risers to bottom of main at 45 degree angle and pitch down to riser. Branches shall have at least 3 elbows between mains and risers to allow for expansion and contraction. Piping between elbows on branches shall be minimum 2 feet long. Risers shall be straight and plumb. Install eccentric reducers approximately 3 feet beyond last branch where main changes size to avoid trapping air in main. J. Seismic Bracing: Conform to requirements of Section 20 03 00. K. Pipe Hangers and Supports: 1. Install hangers, supports, anchors, bolts, and mounting accessories for piping and equipment in accordance with MSS SP58. 2. Spacing of Horizontal Pipe Hangers: a. Comply with the spacing requirements of MSS SP58 and a support shall be installed not over 1 foot from the pipe fitting joint at each change in direction of the piping. For horizontally hung grooved end piping, provide a minimum of 2 hangers per pipe section. b. Provide additional supports at concentrated loads, such as flanges, valves, and similar items. Provide minimum of one hanger per section of soil, waste and drainage piping. 3. Vertical Piping: Route vertical piping in a manner such that it can be attached to adjacent walls or columns. 4. Piping at Ceiling: Suspend piping at ceiling using steel rod hangers, with individual rods for each hanger, except where 2-rod suspension pipe roll supports are specified or indicated on Drawings. 5. Roller Type Hangers: Provide for hot piping 6 inches and larger. 6. Piping Anchors, Guides, and Supports: a. Anchor and support piping to route expansion and contraction in the required direction. b. Install sufficient guides and anchors to keep pipes in accurate alignment, to direct the expansion movement and to prevent buckling, swaying and undue strain. c. Use flexible connectors to prevent vibrations and eliminate undue strain on equipment. d. Use hangers for supporting pipe 2 inches and larger that are fabricated to permit adjustment after erection while still supporting its load. e. Use wall brackets where pipes are adjacent to walls or other vertical surfaces which may be used for support. f. Install supports to adequately carry the load and still maintain proper alignment. g. Set inserts and sleeves for supports in concrete where necessary before the concrete is poured. h. Riser clamps shall not be supported on floor sleeves. Provide means to support riser clamps from the floor slab. Connect guides to the unanchored end of each expansion joint. j. Space guides according to manufacturer's recommendations except where specified or shown otherwise. 7. Beam clamps shall be complete with retaining straps. L. Insulation Saddles and Inserts: 1. Piping 6 Inches and Larger: Provide saddles between hangers and bottom quadrant of pipe; provide saddles between pipe support rollers and bottom quadrant of pipe; weld to the pipe. 2. All Other Insulated Piping: Provide factory fabricated insulation inserts with split metal jacket. Install inserts prior to installing insulation. 200400-7 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES M. Joints: 1. Threaded: a. Produce sufficient lengths of perfect threads to ensure full metal -to -metal contacts when screwed into fittings; countersink, ream and clean ends of pipes of chips and burrs after threading. b. Make up full connections with not more than one full thread exposed, by such method that will not subject pipes or fittings to twisting or cross strains; lubricate male threads only with joint compound. 2. Brazed and Soldered: Cut ends square and remove fins and burrs. Replace dents and damaged tubing with new tubing. Remove grease and oil from joints by wiping with clean cloth saturated with a suitable chemical solvent and then clean with emery cloth. After cleaning apply non -corrosive flux, apply heat and solder and hold joint rigidly until solder or brazing alloy has hardened. Wipe excess solder from exterior of joint before hardening. Before soldering or brazing, remove stems and washers of solder joint valves. 3. Welded: Conform welding to requirements of paragraph titled 'Welding of Piping". Branch Connections may be made as follows. a. Straight Tees: Use welding tees. b. Branch One Size Smaller than Main: Use reducing tees. c. Branch Two or More Sizes Smaller than Main: Use weldolets, threadolets, or sockolets as required. 4. Grooved Joint Couplings: a. Check pipe to be certain it is sufficiently free of indentations, projections, grooves, weld seams, or roll marks on the exterior of the pipe over the entire gasket seating area to ensure a leak -tight seat for the gasket. Check that pipe ends are square cut and that penetration is in accordance with Victaulic, Anvil International, or Grinnell Mechanical Products manufacturer's standards. b. Provide gaskets of the central cavity pressure -responsive design. Gasket style and grade shall be checked to be certain gasket supplied is suited for the intended service. c. Provide lubrication for proper coupling/fitting assembly as follows. 1) Lubricate gasket exterior including the lips and/or pipe ends and housing interiors, to prevent pinching the gasket and for proper gasket seating and alignment during installation. 2) Use Victaulic lubricant or equal of Anvil International or Grinnell Mechanical Products for installation. Other compatible materials such as silicone and others may be used, however, petroleum based lubricants must not be used on Grade "E" or "M" gaskets. 3) Apply a thin, uniform coat of lubricant as follows. a) Brush lubricant on the gasket lips (ID) and the entire exterior of the gasket. b) Brush lubricant on the pipe ends around the entire pipe circumference and inside the coupling housing. d. Provide new gaskets when existing couplings are taken apart and reinstalled. N. Escutcheon Plates: Provide where exposed piping passes through walls, floors, and ceilings of finished rooms. Omit plates where sleeves project above the floor. O. Welding of Piping: 1. Welding procedures, welder's qualifications, and quality, examination, and testing of welds shall be in accordance with ASME B31.9. a. Have current welder's certificates on site for review. 2. Unless stated otherwise, weld black steel piping 2-1/2 inch size and larger. 200400-8 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 3. Beveling: Do field bevels and shop bevels by mechanical means or by flame cutting. Where beveling is done by flame cutting, thoroughly clean surfaces of scale and oxidation just prior to welding. Conform beveling to recognized standards. 4. Alignment: Maintain true alignment for joints on pipes; provide complete weld penetration; prevent weld spatter from reaching the interior of the pipe; the use of split backing rings is optional. 5. Erection: Do not split, bend, flatten or otherwise deform piping before, during or after installation. During erection, take care to remove dirt, scale and other foreign matter from inside the piping by use of a pipe swab or pipe "pig" before tying in sections, valves, equipment or fittings. Where the pipe temperature falls to 32 degrees F or lower, heat the pipe to approximately 100 degrees F for a distance of 1 foot each side of the weld before welding, and finish the weld before the pipe cools to 32 degrees F. 6. Defects: Replace and reinspect defective welds at no additional cost to the Owner. Repairing defective welds by adding weld material over the defect or by peening will not be permitted. 7. Electrodes: Store electrodes in a dry heated area, and keep free of moisture and dampness during fabrication operations. Discard electrodes that have lost part of their coating. P. Balancing/Measuring Valves: Follow manufacturer's recommendations for installation. Use extreme care in installing units with correct flow direction. Install with ports horizontal. Q. Automatic Flow Control Valves: Follow manufacturer's recommendations for installation. Install flexible hoses with sufficient slack to allow for shrinkage or expansion of hoses. R. Pipe Thermometers and Thermowells: Locate and arrange thermometers to be easily read from the floor. Install thermometers in thermowells and fill thermowells with a heat transfer medium approved by the thermometer manufacturer. Provide a thermometer at each device where a controlled temperature change takes place in the fluid. Locate one thermometer on each side of the device, and elsewhere as shown. 3.02 CLEANING A. Flush new piping after fabrication and prior to connecting into the existing systems and prior to pressure tests. B. Remove strainer screens during flushing except those protecting control equipment. Clean the screens protecting control equipment during flushing if necessary and after flushing is completed. 3.03 SYSTEM STARTUP A. Piping Fill: Fill the new chilled water piping with water from the existing system. 3.04 FIELD TESTS A. General: 1. Test new piping and connected equipment. Test after the lines have been cleaned and prior to insulation. 2. Isolate from existing systems by the closest valve or valves to the existing system. 20 04 00 - 9 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 3. Furnish test equipment. Install a calibrated test pressure gage in the piping being tested. 4. Prior to testing, remove or valve -off gages, traps, and other apparatus which may be damaged by testing. 5. Make test in presence of the Boeing Construction Manager. 6. Rectify defects which develop during testing and retest until approved by the Boeing Construction Manager at no additional charge to the Owner. 7. Provide vents and drain valves as required to drain piping after testing. B. Test Requirements: Follow test requirements unless requirements are specified in individual Specification Sections. Submit a report indicating results of pressure tests. 1. Pressure: 1-1/2 times design working pressure or 150 psig, whichever is greater. 2. Time: Hold pressure to inspect joints and connections. 3. Test joints in air -tested systems by brushing with a soapy water solution. 4. Water test piping with water less than 100 degrees F. C. Submit a complete report of testing procedures. END OF SECTION 20 04 00 - 10 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES SECTION 20 91 00 COMMISSIONING PART 1 - GENERAL 1.01 SECTION INCLUDES A. The Work of this Section includes the commissioning process and the relationships of the Boeing Construction Manager, Contractor, and Commissioning Authority. B. The mention of a subcontractor is not meant to usurp the Contractor's responsibility to assign the work. The commissioning team is assigned tasks to be completed to demonstrate completion and operation of the systems. The tasks described in this Section will be performed by the commissioning team. Contractor shall ensure the responsible subcontractor performs the assigned Commissioning tasks. 1. Ensure subcontractor's scope includes commissioning tasks outlined in this Section. 2. If Contractor delegates work to a subcontractor, Contractor shall ensure that the subcontractor designates a representative to the Commissioning Team. 1.02 REFERENCES, ABBREVIATIONS, AND ACRONYMS A. Abbreviations AABC BCA Cx CxA DDC ETO NEBB O&M QA QC and Acronyms: Associated Air Balance Council Building Commissioning Association Commissioning Commissioning Authority Direct Digital Control Electrical Test Organization National Environmental Balancing Bureau Operation and Maintenance Quality Assurance Quality Control B. Definitions: 1. Commissioning: The systematic process of verifying and documenting that building systems have been installed and perform according to the design intent, code requirements, and the Owner's operational needs in order to maximize efficiency and stability. Commissioning is also used to ensure that the Owner is provided with useful and clear training and documentation necessary to operate and maintain the building systems. 2. Commissioning Authority: An entity who leads, plans, schedules, and coordinates the commissioning team to implement the Commissioning Process. 3. Commissioning Team: Includes the Boeing Construction Manager, CxA, Contractor, subcontractor's designated representatives, and design team. 4. Commissioning Plan: See Article in this Section, Duties of CxA. 5. Commissioning Binder: A binder that contains the documentation associated with the commissioning process. 6. Functional Testing: Set of repeatable, step-by-step testing procedures. 7. Systems, Subsystems, Equipment, and Components: Where these terms are used together or separately, they shall mean "As -Built" systems, subsystems, equipment, and components. 20 91 00 - 1 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 1.03 COMMISSIONING MEETINGS A. Commissioning Kick -Off Meeting: The CxA shall schedule and conduct meeting at Project site. The meeting shall be held after the equipment submittals have been substantially completed. 1. Attendees: Commissioning team. 2. Agenda: a. The commissioning team shall review roles and responsibilities. b. The CxA shall distribute the commissioning plan to the commissioning team at this time. 3. Minutes: The CxA shall record, prepare, and distribute meeting minutes electronically to attendees. B. Commissioning Design Intent Clarification Meeting: The CxA shall schedule and conduct meeting at Project site. The meeting shall be scheduled after the commissioning kick-off meeting, and before the equipment has been installed. There shall be at least 2 separate sessions held, 1 for mechanical and 1 for electrical. 1 Attendees: a. CxA and the Contractor. b. The Mechanical Contractor. c. The EMCS contractor. d. The vacuum pump vender. 2. Agenda: a. Align interpretation and facilitate implementation of the design and phasing requirements as shown on Drawings. b. Recommendations for Changes: Any recommendations for changes, as a result of these meetings, shall not be considered a part of the Contract Documents until confirmed by the Contract change process. 3. Minutes: The CxA shall record, prepare, and distribute meeting minutes electronically to attendees. C. Weekly Commissioning Meetings: The CxA shall schedule and conduct meetings at Project site. The meetings shall continue until the commissioning process is complete and issues have been resolved. 1. Attendees: a. At a minimum, the CxA and Contractors shall attend. b. The mechanical and electrical design engineers may be asked to participate by request to the Boeing Construction Manager as required to help resolve issues. 2. Agenda: a. Track progress and discuss system issues. b. CxA shall identify to the Contractor and Boeing Construction Manager which team members are needed to participate in the upcoming meeting. c. The CxA shall also give notice to the Boeing Construction Manager of upcoming activities they may want to witness. 3. Minutes: The CxA shall record, prepare, and distribute meeting minutes electronically to attendees. 1.04 QUALITY ASSURANCE A. Commissioning is a QA process of a QA/QC program as it is applied to the construction process. Provide QA in the form of the commissioning process for the Project, as led by the CxA. Provide QC through ensuring that the installed systems comply with the Project Contract Documents and minimum code requirements. Also provide QC through performing specified quality control requirements, manufacturer's startup requirements, and point-to-point testing for PLC and EMCS. 20 91 00 - 2 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 1.05 COMMISSIONING GOALS A. Execute the commissioning process to meet the following goals. 1. Clarify the operational design intent where there are different interpretations among the commissioning team members. 2. Integrate commissioning activities into the Project Construction Schedule such that commissioning activities meet the Substantial Completion date. Coordinate the phasing requirements with startup, testing, and commissioning activities as described elsewhere. 3. Ensure that equipment is installed correctly per the Contract Documents and in a manner that maximizes efficiency and performance, and provides sufficient access for maintenance and operation utilizing manufacturer's guidelines as minimum criteria. 4. Develop functional tests in order to demonstrate system compliance with the design intent and to provide a format for future re -commissioning. 5. Identify system installation and operational deficiencies and ensure that resolution to those deficiencies occurs in a timely manner. 6. Ensure that the O&M documentation submitted to the Boeing Construction Manager is complete, clearly organized, and useful. 7. Ensure that the as -built drawing information has been completed and submitted to the Boeing Construction Manager. 8. Ensure that Owner's operating personnel are effectively trained in order to achieve technical, safety, operational, and maintenance knowledge before the time of building systems turnover to the Boeing Construction Manager. 1.06 COMMISSIONING SCOPE OF WORK A. The following equipment/systems shall be commissioned. The 5 columns at the right side of the matrix below represent the 5 major commissioning activities and how they apply to each of the commissioned equipment and systems. Refer to Article "Commissioning Process" of this Section for further description of each of the 5 major commissioning activities. Equipment and Systems to be Commissioned Installation Checklist Startup Oversight Functional Test O&M/As-Built Oversight Owner Training Oversight Current Facilities Requirements and Operations and Maintenance Plan Furnished under separate contracts with Boeing but commissioned under this Contract EMCS Control System ,J ,I -4 4 4 Vacuum Pump PLC Controls 4 4 4 4 4 Division 22: Plumbing Process Vacuum System Al 4 Al ,J 4 4 20 91 00 - 3 BOEING DEVELOPMENTAL CENTER VACUUM PUMP UPGRADES October 23, 2015 Equipment and Systems to be Commissioned Installation Checklist Startup Oversight Functional Test O&M/As-Built Oversight Owner Training Oversight Current Facilities Requirements and Operations and Maintenance Plan Division 23: Heating, Ventilation, and Air Conditioning HVAC Piping 4 ,J J HVAC Air Distribution 4 4 4 4 4 B. Coordinate startup, testing, and commissioning of individual vacuum pumps and their associated controls as shown on Drawings with the combined vacuum pump system and controls. 1.07 CXA A. The Contractor shall be the CxA and shall perform commissioning as required in this Section and elsewhere in the Contract Documents. B. Submit resume of candidate for position of CxA within 30 calendar days after receipt of the Notice to Proceed. Include the following. 1. Present Employment: a. Company name, address, and phone number. b. Current title and job description. 2. History of employment with present and past firms for the past 10 years. 3. Relevant Work Experience: Position name and description of responsibilities including name and current telephone number of immediate supervisor or reporting entity. 4. Include a sample commissioning plan previously produced for a similar project. 5. Education and Technical Training: List relevant degrees, certifications, and professional affiliations. 6. Reference names of at least 3 former clients. 7. The Boeing Construction Manager reserves the right to interview the candidates for CxA position prior to accepting placement in the position. 1.08 CXA RESPONSIBILITIES A. Develop a detailed Commissioning Plan which includes activities to be performed, sequence, scheduling, documentation, and verification procedures. 1. Commissioning Plan shall include the following. a. Installation Checklists for all systems. 1) Equipment startup including phasing requirements. 2) Six new vacuum pump startup per manufacturer and specification requirements. 3) Six new individual vacuum pump PLC startup tests. 4) EMCS interface to each vacuum pump. b. Overall system commissioning after 6 new pumps are operational. 1) Verification of operation of the 4 vacuum pumps in Building 103. 20 91 00 - 4 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 2) Verification of the quad control panel PLC in Building 103. 3) Verification of the Master control panel including communication to the quad control panel in Building 103 and communication to the 6 new PLC's at each vacuum pump. Verification of individual operation of Building 101 Annex vacuum pumps upon loss of network communications. 4) Verification of individual operation of Building 102 vacuum pumps upon loss of network communications. 5) Verification of EMCS monitoring via BacNet of all 10 vacuum systems. 6) Verification of control power transfer switch operation. B. Develop test procedures and forms for documentation of equipment tests, system functional tests, and cross system functional tests. Test procedures shall be in accordance with equipment manufacturer's recommendations, where applicable. Test procedures shall fully describe system configuration and steps required for each test; appropriately documented so that another party can repeat the tests with virtually identical results. C. Provide a commissioning binder to organize commissioning documentation. Maintain binder throughout the commissioning process in the Contractor's field office. D. Coordinate the testing schedules with the Contractor. Contractor shall integrate testing durations into the Project Construction Schedule and coordinate testing requirements with subcontractors of commissioned systems. E. Develop Installation Checklists and startup documentation to be placed in the commissioning binder. F. Schedule and conduct commissioning meetings and distribute commissioning meeting minutes electronically to attendees within 3 days of the meeting. G. Prepare and distribute "Commissioning Activity Reports" to the commissioning team within 3 days of site visit to keep the commissioning team informed of progress for the different commissioning activities. H. Observe functional tests and results. Review documentation required by the Contract Documents. I. Observe and document integrated system testing of all commissioned systems. J. Document inconsistencies and deficiencies in system operations and system compliance. K. Review operating and maintenance data and as -built drawings for verification, organization, distribution, and conformance to requirement of Contract Documents. L. Provide Preliminary and Final Commissioning Reports as required for code compliance. 1.09 MECHANICAL CONTRACTOR COMMISSIONING RESPONSIBILITIES A. Coordinate commissioning Work with Work provided in Divisions 20 through 23. Verify that coordination, quality control, and final mechanical systems installation testing have been completed such that installed systems and equipment comply with Contract Documents. 20 91 00 - 5 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES B. Notify the Boeing Construction Manager and CxA as soon as possible of any issues identified during construction that may affect the commissioning process or final system performance. C. Provide CxA with proposed startup and testing documentation to be used for the test documentation specified in Divisions 20 through 23. D. Review the functional test procedures and submit comments to Boeing Construction Manager and CxA to allow finalization of procedures. E. Perform startup and testing of mechanical equipment and systems and document as required with startup reports and completion of Installation Checklists. Reports and Installation Checklists shall be placed in the commissioning binder in the Contractor's office. F. Operate equipment and systems as required for functional tests. G. Perform functional tests and document results with reports. Reports shall be placed in the commissioning binder in the Contractor's office. H. Participate in the fine-tuning and troubleshooting of system performance if either of these measures becomes necessary. I. Provide complete operation and maintenance information and as -built drawings to the Contractor for verification, organization, and distribution. 1.10 CONTROLS CONTRACTOR COMMISSIONING RESPONSIBILITIES A. Furnish Boeing Construction Manager and CxA with controls system component wiring diagrams and narrative sequences of operation. Review the functional test procedures and submit comments to Boeing Construction Manager and CxA to allow finalization of procedures. 1. Participate in required efforts to finalize sequences of operations with Boeing Construction Manager and CxA. B. Coordinate installation of controls system with equipment provided in Divisions 20 through Division 23 and Division 26. Verify that coordination, installation, quality control, and final testing have been complete such that installed systems and equipment comply with the Contract Documents. C. Notify the CxA and Boeing Construction Manager immediately of system installation issues identified during construction that may compromise system control capability. D. Complete Installation Checklists and other supporting documentation demonstrating completion of control system installation, point-to-point verification (including sensor calibration), startup, and testing. Installation Checklists and documentation shall be placed in the commissioning binder in the Contractor's field office. E. Participate in startup and functional tests to demonstrate compliance with the Contract Documents. This will require dedicated, full time support of the CxA's functional testing efforts during commissioning. F. Participate in fine-tuning and troubleshooting of system operation if either of these measures becomes necessary. 20 91 00 - 6 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES G. Provide the CxA and Boeing Construction Manager with final documentation for installed systems and devices, including as -built drawings and detailed narrative sequences of operation as determined during commissioning process. H. Provide CxA with access to the entire control system to allow CxA to do the following. 1. Command set -points. 2. Review programming. 3. Review scheduling. 4. Review point definitions. 5. Build trends. 6. Build trend reports. 7. Collect trend data. PART 2 - PRODUCTS Not Used. PART 3 - EXECUTION 3.01 COMMISSIONING PROCESS A. Installation Checklists: Install the building systems to meet the Contract Document requirements, meet applicable code requirements, and meet the manufacturer's installation instructions. Provide equipment that maximizes equipment and system performance, and provides adequate space for maintenance of the equipment. Complete commissioning Installation Checklists. These shall be back -checked by the CxA to verify that the equipment/systems have been completed and are ready for equipment/system startup and functional testing. B. Equipment/System Startup Oversight: Perform the startup activities required through the Contract Documents and as per the manufacturer's instructions. The CxA shall provide oversight of the Contractor's startup activities to ensure that they have been completed and equipment is operational. The CxA shall verify interoperability with equipment and building systems. Continuously update the commissioning schedule and maintain the commissioning binder. C. Functional Testing: Demonstrate proper operation of each commissioned equipment/system for all equipment/system features and operating modes as well as demonstrate specified equipment/system capacities. Make all corrections in a timely manner until the system(s) fully comply with the test procedures. D. Operation and Maintenance (O&M) Documentation and As -Built Submittals Oversight: Submit 1 complete draft of the O&M documentation for review by the CxA. Organize information showing which components and options are provided with each piece of equipment or system. This draft shall be a separate requirement from the O&M documentation submittals required in other Sections. The draft shall be used to provide information necessary to develop the commissioning functional test procedures. The draft O&M documentation shall be reviewed by the CxA for organization and content to ensure the following items are included. 1. Information to conduct maintenance. 2. Information to describe operation. E. Owner Training Oversight: The CxA shall review the Contractor -developed Owner Training Plan. The Training Plan shall include the following. 1. Use of knowledgeable personnel to perform the training. 20 91 00 - 7 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 2. List of Owner personnel who will receive training. 3. Provide Boeing Construction Manager with documentation for all warranty start and end dates. 4. Operational information for the Owner to operate building systems. 5. Contact information for all manufacturers, suppliers, and service providers. 6. List of equipment and instrumentation for the Owner to operate and maintain. 3.02 COMMISSIONING ISSUES LOG A. Issues discovered during the commissioning activities or during commissioning meetings shall be tracked on the "Commissioning Issues Log" as developed, updated, and distributed by the CxA. B. Correct items on the Commissioning Issues Log in a timely manner to adhere to the commissioning schedule. C. The Commissioning Issues Log shall be kept separate from the Boeing Construction Manager's preliminary closeout review document (punch list). 3.03 COMMISSIONING REPORTS A. Commissioning Activity Reports: The CxA shall produce and distribute Commissioning Activity Reports to keep the commissioning team informed of the results of the commissioning activities and the commissioning progress. B. Final Commissioning Report: CxA shall furnish the Final Commissioning Report to the Boeing Construction Manager within 90 days of the date of receipt of the certificate of occupancy. This Report shall include the following. 1. Results of functional tests. 2. Disposition of deficiencies found during testing, including details of corrective measures used or proposed. 3. Functional test procedures used during the commissioning process including measurable criteria for test acceptance, provided herein for repeatability. END OF SECTION 20 91 00 - 8 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES SECTION 22 62 00 PROCESS VACUUM SYSTEM PART 1 - GENERAL 1.01 SECTION INCLUDES A. The work of this Section includes the process vacuum system including process vacuum piping and accessories and installation of Boeing furnished vacuum pumps. 1.02 SUBMITTALS A. Product Data: 1. Piping and valves. 2. Pipe specialties and accessories. PART 2 - PRODUCTS 2.01 PROCESS VACUUM PIPING, PROCESS VACUUM VENT PIPING, AND VALVES A. Conform to the requirements of "Steel Piping General" in Section 20 04 00. 2.02 PIPE SPECIALTIES AND ACCESSORIES A. Flexible Connections: Stainless steel bellows type with outer braid, full vacuum rating, 12 inches minimum bellows length; Flexonics, Anaconda, Flex -Hose Co. or Atlantic Metal Hose manufacturer. B. Vacuum Gage: 0 inch-30 inch Hg, 4 inch dial. PART 3 - EXECUTION 3.01 INSTALLATION A. Process Vacuum And Process Vacuum Vent Piping: Conform to the requirements of Section 20 04 00. B. Process Vacuum Pumps: Attach packaged vacuum pump with anchor bolts to a concrete housekeeping pad 3.02 STARTUP AND TESTING A. Test piping per requirements of Section 20 04 00. B. Pressure Test: Test piping with clean, dry air to a minimum of 15 psig internal pressure, or 1.5 times the differential, whichever is greater. Test for leaks by brushing with a soapy water solution. Hold pressure to inspect joints and connections. C. Vacuum Leak Test: Furnish portable test pump and test piping in sections; draw 29 inches hg vacuum on piping section with vacuum source disconnected or valved off. Duration of section tests shall be one hour; vacuum loss to not exceed 1-1/2 inches mercury during test period. 226200-1 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES D. Startup: Ensure proper functioning, adjustment, and testing of all vacuum pump components in accordance with manufacturer's requirements. 3.03 COMMISSIONING A. Operate systems, subsystems, and equipment for testing in accordance with Functional Performance Test Procedures included in the Cx Plan. Provide installation checklists and functional performance testing in compliance with project phasing as shown on Drawings and described in Section 20 91 00. B. Provide technicians, instrumentation, and tools to verify testing of commissioned systems in coordination with the approved test plan. 1. Notify the CxA in advance of the date of field verification conforming to the requirements of Section 20 91 00. Include systems and data points to be verified. 2. Use the same calibrated instruments (by model and serial number) for testing that were used when original data was collected. C. Functional Testing shall be performed using design conditions whenever possible. 1. Simulated conditions may need to be imposed using an artificial load when it is not practical to test under design conditions. Before simulating conditions, calibrate testing instruments. Provide equipment to simulate loads. Set simulated conditions as directed by the CxA and document simulated conditions and methods of simulation. After testing, return settings to normal operating conditions. 2. The test plan may require that the sensor values be altered with a signal generator when design or simulating conditions and altering set points are not practical. After testing, return settings to normal operating conditions. D. Functional Test Issues: 1. An item that does not meet the requirements of the Functional Test shall be recorded as an "issue" in the Commissioning Issues Log. Issues discovered during testing shall be corrected and the Functional Test shall be rescheduled 2. Notify the CxA after issues have been corrected so the Functional Test can be performed. E. If tests cannot be completed because of a deficiency outside the scope of work, document the deficiency and report it to the Boeing Construction Manager. After deficiencies are resolved, notify the CxA so the Functional Test can be performed. 3.04 DEMONSTRATION A. Demonstration of equipment and system shall be made in the presence of the Boeing Construction Manager. Provide 5 working days advance notice. B. Demonstrate satisfactory operation of equipment of the process vacuum system. END OF SECTION 226200-2 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES SECTION 23 07 00 HVAC INSULATION - PART 1 - GENERAL 1.01 SECTION INCLUDES A. The Work of this Section includes insulation and accessories for piping systems. 1.02 DEFINITIONS A. Thickness: Normal thickness of insulation is defined as the thickness of the basic insulating medium not including finishing coats. B. Thermal conductivity is defined as Btu-inch/hour-square feet -degree F. 1.03 SUBMITTALS A. Product Data: All materials. 1.04 QUALITY ASSURANCE A. Fire Resistance: 1. Insulation, Tape, Adhesives, Vapor Barrier Materials, and Jackets: Flame spread and smoke developed ratings shall conform to requirements of ASTM E84; not more than 25/50. PART 2 - PRODUCTS 2.01 INSULATION CHARACTERISTICS A. Manufacturer: Owens-Corning, Certainteed, Johns Manville, or Knauf. B. Pipe Insulation: 1. Fiberglass: Suitable for pipe temperature from 0 degrees F to plus 800 degrees F; one piece type with only one longitudinal joint; thermal conductivity not greater than 0.24 Btu-inch/hour-square feet -degree F at 75 degrees F mean temperature. Provide factory applied all -service jacket. a. Factory Applied All -Service Jacket for Fiberglass Insulation: White kraft paper outer surface bonded to aluminum foil vapor barrier, suitable for painting. Kraft paper permanently treated for fire and smoke safety and to prevent corrosion of the foil. Factory applied pressure sensitive closure system for permanent seal of laps and butt strips. C. Insulation for Valves 2 Inches and Smaller, Fittings, Flanges, Grooved Joint Pipe Couplings, and Unions (Except Unions on Chilled Water): 1. Fiberglass: Owens-Corning Type TIW wool type wrap, Johns Manville HTB 26 insulation blanket, or resilient glass fiber strips to same thickness of adjacent pipe insulation. Provide with PVC covers. a. PVC Covers: Factory pre -molded one-piece PVC covers. D. Insulation for Valves 2-1/2 Inches and Larger: 1. Fiberglass: Flexible removable fiberglass blanket fabrication of a sandwich section of fiberglass batt (1 pound per cubic foot density), same thickness as 230700-1 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES adjacent pipe insulation, enclosed in glass cloth cover machine sewed at the ends; provide stainless steel two hole lacing hooks and sew hooks to blanket; provide stainless steel wire for lacing the blanket. 2.02 INSULATION SPECIALTIES A. Joint Tape: Glass fiber reinforced, aluminum foil and kraft paper laminate with vapor barrier characteristics comparable to insulation facing. B. Finishing Cement: Hydraulic setting, low shrinkage insulating and finishing cement for one coat finish, suitable for painting with water base paint. C. Insulating Cement: Mineral fiber cement suitable for application on metal in single layers up to 4 inches thick. D. Vapor Barrier Adhesive: Vapor barrier lap sealing adhesive, Foster 85-20, Childers CP-82, or approved equal. E. Vapor Barrier Coating: Foster 30-80, Childers CP-38, or Vimasco 749 water based vapor barrier coating, or approved equal. Maximum perm rating of 0.08 perms or less at 37 mils dry tested at 100 degrees F and 90 percent RH per ASTM F1249. F. Insulation Pin Fasteners: Zinc coated steel, 2 inches by 2 inches perforated plate with spindle and washer. Spindle length to suit insulation thickness. G. Insulation Pin Adhesive: Contact cement suitable for fastening insulation pins to metal surfaces, Miracle Adhesive HT4620, Tuf-Bond all-purpose, or approved equal. H. Insulation Inserts: Conform to requirements of Section 20 04 00. I. Insulation Bands: 3/4 inch wide, 26 gage stainless steel. J. Wire: Soft annealed stainless steel, 16 or 18 gage. PART 3 - EXECUTION 3.01 INSTALLATION A. Install with joints tightly butted. Tuck and tuft edges of insulation. Maintain vapor barrier when butting insulation to inserts. B. Install insulation to allow easy access to equipment for inspection and repairs. C. Carefully bevel and seal insulation around equipment nameplates. Seal raw edges of insulation at flanges, etc. D. Remove loose dirt, rust, other loose foreign material, moisture and frost from surfaces prior to installing insulation. E. Apply insulation only after piping has been tested. F. Repair and/or replace damaged or removed covering on existing piping where damaged by Work under this Contract. 230700-2 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES G. Piping: 1. General: a. Provide insulation continuous through floor, wall, and ceiling openings and sleeves. b. Apply specific adhesives, mastics, and coatings at the manufacturer's recommended minimum coverage per gallon. c. Provide insulation in the space between the pipe and the pipe saddle. d. Inserts: Overlap adjacent insulation jacket a minimum of 1 inch on insulation inserts and securely cement in place. H. Fiberglass Insulation: 1. Fiberglass Insulation for Pipes: Apply insulation over clean, dry pipe with joints butted firmly together. Smoothly secure longitudinal jacket laps and butt strips according to manufacturer's recommendations. 2. Fiberglass Insulation for Valves 2 Inches and Smaller, Fittings, Flanges, Grooved Joint Pipe Couplings, and Unions (Except Unions on Chilled Water): Apply insulation and install PVC covers. Staple and seal seam edges of the one-piece PVC cover with vapor barrier adhesive applied over insulation. Tape circumferential edges of cover with vapor barrier pressure sensitive tape to match fitting cover color. The tape shall extend over the adjacent piping insulation and have an overlap on itself at least 2 inches. a. Unions: Each union shall have a separate PVC fitting cover. Write the word "UNION" on each PVC union cover with a permanent black felt marking pen. Use removable insulation segments. Arrange segments to permit access to union by slitting tape at the joints. 3. Fiberglass Insulation for Valves 2-1/2 Inches and Larger, Unions on Chilled Water Piping: Apply flexible removable fiberglass blanket insulation and glass cloth cover jacket. a. Unions: Each union shall have a separate PVC fitting cover. Write the word "UNION" on each union cover with a permanent black felt marking pen. Use removable insulation segments. Arrange segments to permit access to union by slitting tape at the joints. b. Piping Components in Cold Piping Systems: Apply vapor barrier coating over exterior surfaces to provide a continuous vapor barrier. 3.02 ITEMS TO BE INSULATED A. New Chilled Water Piping. 3.03 ITEMS NOT TO BE INSULATED A. Valve stems, handwheels, and operators. 3.04 INSULATION TYPE AND THICKNESS A. Pipe: Except where shown otherwise on Drawings or specified otherwise, insulate piping to the thickness listed in the following table. Service Type Insulation Thickness for Pipe Sizes Shown (Inches) Less Than 1 1 to Less Than 1-1/2 1-1/2 to Less Than 4 4 to Less Than 8 8 and Over Chilled Water (40 - 60 Degrees F) FG 0.5 0.5 1.0 1.0 1.0 230700-3 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES B. Abbreviations: 1. FG - Fiberglass. I i END OF SECTION 230700-4 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES SECTION 23 20 00 HVAC PIPING PART 1 - GENERAL 1.01 SECTION INCLUDES A. The Work of this Section includes chilled water piping, pipe specialties and accessories. 1.02 SUBMITTALS A. Product Data: 1. Piping and valves. 2. Pipe specialties and accessories. PART 2 - PRODUCTS 2.01 CHILLED WATER PIPING AND VALVES A. Chilled Water Piping: Conform to the requirements of "Steel Piping - General" or "Copper Piping - General" in Section 20 04 00. 1. Piping 2 inches and smaller shall have threaded end connections. 2. Piping 2-1/2 inches and larger shall have grooved end connections. B. Valves: Conform to requirements of Section 20 04 00, with the following exceptions. 1. Valves 2 inches and smaller shall be ball valves. 2. Valves 2-1/2 inches and larger shall be butterfly valves. 2.02 PIPE SPECIALTIES AND ACCESSORIES A. Strainers: Conform to requirements of Section 20 04 00. B. Escutcheons: Conform to requirements of Section 20 04 00. C. Automatic Air Vents and Manual Air Vents: Conform to requirements of Section 20 04 00. D. Pressure Gages, Thermometers, and Pressure/Temperature Test Ports: Conform to requirements of Section 20 04 00. E. Balancing Valves, Balancing/Measuring Valves, Venturi Flow Measuring Elements, and Automatic Flow Control Valves: Conform to requirements of Section 20 04 00. F. Seismic Loops: Conform to requirements of Section 20 04 00. G. Pipe Guides: Conform to requirements of Section 20 04 00. H. Pipe Anchors: Conform to requirements of Section 20 04 00. Pipe Slides: Conform to requirements of Section 20 04 00. J. Flexible Connectors: Conform to requirements of Section 20 04 00. 232000-1 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES K. Flexible Braided Hose: Flexicraft Industries Model SBI hose with 2 inch female NPT unions; corrugated 321 stainless steel metal hose with a single 304 stainless steel braid 2 inch diameter; 30 inches long; 500 psi working pressure; 2,000 psi burst pressure; and an intermittent bend radius of 18 inches. PART 3 - EXECUTION 3.01 INSTALLATION A. General: Conform to requirements of Section 20 04 00 and manufacturer's installation instructions. B. Seismic Restraints: Conform to requirements of Section 20 03 00. C. Piping: 1. Conform to requirements of Section 20 04 00. 2. Install piping to ensure complete drainage of system. D. Flexible Hoses: Install flexible hoses with sufficient slack to allow for shrinkage or expansion of hoses. 3.02 CLEANING A. Flushing and Cleaning of New Piping: Conform to requirements of Section 20 04 00. 3.03 FIELD TESTING A. Pressure Tests of New Piping: Conform to requirements of Section 20 04 00. 3.04 COMMISSIONING A. Operate systems, subsystems, and equipment for testing in accordance with Functional Performance Test Procedures included in the Cx Plan. Provide installation checklists and functional performance testing in compliance with project phasing as shown on Drawings and described in Section 20 91 00. B. Provide technicians, instrumentation, and tools to verify testing of commissioned systems in coordination with the approved test plan. 1. Notify the CxA in advance of the date of field verification conforming to the requirements of Section 20 91 00. Include systems and data points to be verified. 2. Use the same calibrated instruments (by model and serial number) for testing that were used when original data was collected. C. Functional Testing shall be performed using design conditions whenever possible. 1. Simulated conditions may need to be imposed using an artificial load when it is not practical to test under design conditions. Before simulating conditions, calibrate testing instruments. Provide equipment to simulate loads. Set simulated conditions as directed by the CxA and document simulated conditions and methods of simulation. After testing, return settings to normal operating conditions. 2. The test plan may require that the sensor values be altered with a signal generator when design or simulating conditions and altering set points are not practical. After testing, return settings to normal operating conditions. 232000-2 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES D. Functional Test Issues: 1. An item that does not meet the requirements of the Functional Test shall be recorded as an "issue" in the Commissioning Issues Log. Issues discovered during testing shall be corrected and the Functional Test shall be rescheduled 2. Notify the CxA after issues have been corrected so the Functional Test can be performed. E. If tests cannot be completed because of a deficiency outside the scope of work, document the deficiency and report it to the Boeing Construction Manager. After deficiencies are resolved, notify the CxA so the Functional Test can be performed. 3.05 DEMONSTRATION A. Demonstrate proper operation of new system components, including pump rotation direction, in the presence of the Commissioning Authority and Boeing Construction Manager, and repair or replace components that do not operate in accordance with design requirements and manufacturer's specifications. Submit a written report. END OF SECTION 232000-3 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES SECTION 23 30 00 HVAC AIR DISTRIBUTION PART 1 - GENERAL 1.01 SECTION INCLUDES A. The Work of this Section includes fans and accessories. 1.02 REFERENCES A. Definitions: 1. Exposed Versus Concealed: a. Exposed is defined as Work exposed to the view of occupants in normally occupied areas and in equipment rooms. b. Concealed is defined as Work located in ceiling spaces, chases, and other locations not exposed to view. B. Reference Standards: The publications of the organizations listed below form a part of this Specification to the extent referenced. 1. Sheet Metal and Air Conditioning Contractors' National Association (SMACNA). a. HVAC Duct Construction Standards Metal and Flexible (HDCS) Third Edition-2005. b. HVAC Air Duct Leakage Test Manual (DLTM), Second Edition-2012. c. Architectural Sheet Metal Manual (ASMM) Seventh Edition-2012. d. Fire, Smoke and Radiation Damper Installation Guide for HVAC Systems, Fifth Edition-2002. 2. Air Movement and Control Association, Inc. (AMCA). a. AMCA 500 (Air Movement and Control Association) - Test Method for Louvers, Dampers, and Shutters. 1.03 SUBMITTALS A. Product Data: 1. Fans. B. Performance Data: Submit fan performance curve for each fan. Curve shall show static pressure versus volume flow, efficiency, and brake horsepower. Specified point of rating shall be prominently shown and labeled on curve. Performance shall be certified in accordance with AMCA Standard 210. C. Sound Power Level Data: Submit data plotting octave band frequencies from 63 Hz to 8000 Hz versus octave band sound power level, dB re 10-12 watts, for each fan. Performance shall be certified in accordance with AMCA Standard 300. D. Test Report: 1. Demonstration report. 233000-1 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES PART 2- PRODUCTS 2.01 FANS A. General: 1. Fans shall be selected at the point of maximum mechanical efficiency at the point of operation. Fan class shall be based on rpm increase of 25 percent over the rpm required for the indicated cfm. 2. Fans shall be AMCA rated and labeled. 3. Motors shall conform to requirements of Section 20 03 00. 4. Fans shall be statically and dynamically balanced. B. Low Silhouette Centrifugal Roof Exhausters: 1. Fan: a. Manufacturer and Type: Greenheck Model LB centrifugal roof exhauster or equal of PennBarry, Cook, JennFan, Carnes, or ILG manufacturers; UL listed. b. Housing shall be rib -lock galvanized steel with galvanized steel rails. c. The fan shall be belt drive type. The fan wheel shall be centrifugal backward inclined, constructed of aluminum and shall include a wheel cone matched to the fan's venture. d. The fan shall be constructed of steel or aluminum with a rigid internal support structure and birdscreen. e. Motor shall be heavy duty ball bearing type, matched to the fan load. Drive frame assembly shall be constructed of steel. Motor and drive shall be mounted on vibration isolators. Motor and drive shall be accessible for maintenance. f. Precision ground and polished fan shaft shall be mounted in permanently sealed, lubricated pillow block ball bearings. Bearings shall be selected for a minimum (L10) life in excess of 100,000 hours at maximum cataloged operating speed. Drives shall be sized for a minimum of 150 percent of driven horsepower. Pulleys shall be of the cast type, keyed, and attached to the wheel and motor shaft. g. Motor pulleys shall be adjustable for final system balancing. A disconnect switch shall be factory installed and wired from the fan motor to a junction box installed within the motor compartment. A conduit chase shall be provided through the base to the motor compartment for electrical wiring. C. Control Damper: Low leakage control dampers; damper leakage rate shall not exceed 4 cfm per square foot of damper area at 1.0 inch w.g. when tested in accordance with AMCA 500; extruded aluminum, stainless steel, or zinc -coated steel blades with extruded vinyl or rubber blade edge seals and aluminum or stainless steel "arc" blade end seals. External frame constructed heavy gage welded steel with 1/4 inch plate bearing bars and bronze insert bearings. 1. Electric Actuator: Provide two -position actuator of sufficient size and type, matched to application. D. Duct Sealant: Foster "Fiber-FAS 32-16", Childers "Chit -Flex CP-146", McGill Airseal "Uni-Flex", or Design Polymerics "DP1010"; water based sealant; UL 181B-M listed; suitable for indoor and outdoor use; suitable for use with metal ductwork, flexible air ducts, and flexible air connectors; surface burning characteristics of 25 maximum flame spread and 50 maximum smoke developed when in dry state; rated for air temperature operating range of minus 20 degrees F to plus 200 degrees F. 233000-2 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES PART 3 - EXECUTION 3.01 INSTALLATION A. General: Conform to requirements of Section 20 03 00 and manufacturer's installation instructions. B. Seismic Restraints: Conform to requirements of Section 20 03 00. C. Centrifugal Roof Exhausters: Mount fan on existing roof curb. Repair or replace roof flashing to provide weather -tight installation. D. Install automatic control dampers in accordance with manufacturer's instructions. 3.02 CLEANING AND ADJUSTING A. Lubricate bearings with oil or grease as recommended by the manufacturer. Tighten belts to proper tension with no audible belt slippage during fan acceleration from stand still to operating rpm and during operation of fan. Adjust fans to the speed indicated by the manufacturer to meet specified conditions. B. Provide fan drive changes including sheaves as required to achieve fan speed and airflow rates as shown on Drawings. C. Adjust airflow rates to within 10 percent of design values. 3.03 COMMISSIONING A. Operate systems, subsystems, and equipment for testing in accordance with Functional Performance Test Procedures included in the Cx Plan. Provide installation checklists and functional performance testing in compliance with project phasing as shown on Drawings and described in Section 20 91 00. B. Provide technicians, instrumentation, and tools to verify testing of commissioned systems in coordination with the approved test plan. 1. Notify the CxA in advance of the date of field verification conforming to the requirements of Section 20 91 00. Include systems and data points to be verified. 2. Use the same calibrated instruments (by model and serial number) for testing that were used when original data was collected. C. Functional Testing shall be performed using design conditions whenever possible. 1. Simulated conditions may need to be imposed using an artificial load when it is not practical to test under design conditions. Before simulating conditions, calibrate testing instruments. Provide equipment to simulate loads. Set simulated conditions as directed by the CxA and document simulated conditions and methods of simulation. After testing, return settings to normal operating conditions. 2. The test plan may require that the sensor values be altered with a signal generator when design or simulating conditions and altering set points are not practical. After testing, return settings to normal operating conditions. 233000-3 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES D. Functional Test Issues: 1. An item that does not meet the requirements of the Functional Test shall be recorded as an "issue" in the Commissioning Issues Log. Issues discovered during testing shall be corrected and the Functional Test shall be rescheduled 2. Notify the CxA after issues have been corrected so the Functional Test can be performed. E. If tests cannot be completed because of a deficiency outside the scope of work, document the deficiency and report it to the Boeing Construction Manager. After deficiencies are resolved, notify the CxA so the Functional Test can be performed. 3.04 DEMONSTRATION A. Demonstrate proper operation of system components in the presence of the Boeing Construction Manager, and repair or replace components that do not operate in accordance with design requirements and manufacturer's specifications. Submit a written report. END OF SECTION 233000-4 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES SECTION 26 00 10 ELECTRICAL PROVISIONS PART 1 - GENERAL 1.01 SECTION INCLUDES A. The Work under this Division includes furnishing materials, equipment, labor, supervision, tools and items necessary for the construction, installation, connection, testing and operation of electrical work for this project, as shown on the Drawings and defined in this Division of the Specifications. 1.02 REFERENCES A. ANSI/NETA ATS (InterNational Electrical Testing Association) — Standard for Acceptance Testing Specifications for Electrical Power Distribution Equipment and Systems. B. ANSI/NETA ETT (InterNational Electrical Testing Association) — Standard for Certification of Electrical Testing Technicians. C. IEEE C2 (Institute of Electrical and Electronics Engineers) — National Electrical Safety Code. D. NECA 1000 (National Electrical Contractors Association) — National Electrical Installation Standards Specification System. E. NFPA 70 (National Fire Protection Association) — National Electrical Code. F. NFPA 70A/70E (National Fire Protection Association) — Electrical Safety in the Workplace. G. Manufacturer's installation and operating instructions. 1.03 QUALITY ASSURANCE A. Substitutions: 1. Whenever any material or equipment is specified by patent or proprietary name or by the name of the manufacturer, such specification establishes the standard of quality in that particular field of manufacture. 2. When approved substitute equipment or material necessitates revisions to the Drawings or involves other trades, include drawings and details showing such changes, and coordinate and assume any liability from the affected trades. 3. Acceptance: The acceptance of a manufacturer's name or product by the Boeing Construction Manager does not relieve the Contractor of the responsibility for providing materials and equipment which comply in details with the requirements of the Contract Documents. B. Tests: Demonstrate that equipment operates as indicated as specified, and in accordance with the manufacturer's recommendations. Perform tests in the presence of the Boeing Construction Manager. Provide instruments, personnel, and utilities required to conduct the tests. C. Qualifications: Use sufficient number of qualified, competent, journeymen and supervisors in the execution of the Work to ensure complete, functioning installation 260010-1 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES compliant with the Contract Documents. In the acceptance of installed work, no allowance will be made for lack of skill on the part of the workmen. 1.04 WORK OF OTHER TRADES A. The Drawings do not show complete details of the building construction. Refer to the architectural, structural, civil, and mechanical Drawings for those details which may affect the execution of this work. Specific locations of structural or architectural features or equipment items shall be obtained from field measurements or the trade providing the material or equipment. No extra payments will be allowed for failure to obtain this information. B. Coordination: 1. Plan and execute Work including, but not limited to, ducts, conduit, raceways, pathways, and cable trays, in cooperation with other trades. 2. Make every reasonable effort to provide timely notice of work affecting other trades to prevent conflicts or interference as to space requirements, dimensions, openings, block -outs, sleeves, firestopping, painting, finishing, or other matters which will cause delays or necessitate work -around methods. 1.05 EXISTING CONDITIONS A. Demolition work required is noted on the Drawings. Specific scope of demolition work and operating conditions to be encountered shall be verified from on -site review and coordination with Boeing. Maintain service to existing equipment and devices to be retained in area adjacent to the existing areas scheduled for renovation. Provide temporary services to meet these conditions. B. Special Protection: Exercise maximum precaution to provide positive protection for the existing building and equipment from damage of any kind, and in particular prevent any water and dust seepage into the existing building. Mark and protect equipment and systems from the activities of other trades. C. Utilities and Services: 1. Do not disturb existing utilities without Boeing's written consent. Notify the Boeing Construction Manager not less than 7 days prior to the scheduled work date. 2. Prior to demolition, field -verify and document existing area. 3. Prior to core drilling, use ground penetrating radar, pacometer, X-ray or other suitable means to locate existing rebar, embedded conduit, post tensioning cables and other imbedded obstructions. Locate core drill to avoid obstructions. 4. Failure to verify the existing conditions or submit re-routing plan will be considered sufficient cause for work to be altered at Contractor's expense, as directed by the Boeing Construction Manager. 1.06 CODES, PERMITS, INSPECTIONS, AND FEES A. Obtain permits and inspections and pay fees required by National, State and Local authorities. B. Make arrangements for inspections by the Boeing Construction Manager Representative and other authority. Submit 3 copies of certificates of compliance to the Boeing Construction Manager. 260010-2 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES C. Work and materials shall be in accordance with requirements of the latest adopted edition of applicable codes, regulations, ordinances, and local amendments including, but not limited to, the following. 1. 2012 International Building Code. 2. 2012 International Fire Code. 3. 2012 Washington State Energy Code. 4. 2014 National Electrical Code (NEC), NFPA 70. 5. Washington Administrative Code, Chapter 296-24 WAC — General Safety and Health Standards. 6. Washington Administrative Code, Chapter 296-46B WAC — Electrical Safety Standards, Administration, and Installation. 7. The Americans with Disabilities Act (ADA). 8. National Electrical Safety Code, IEEE C2. 9. Electrical Safety in the Workplace, NFPA 70E. D. Nothing in Drawings and Specifications shall be construed to permit Work not in conformance with these rules and regulations. E. Thoroughly examine the Drawings and the Specifications prior to procuring or installing products. Notify The Boeing Construction Manager immediately upon discovery of work shown on the Drawings or in the Specifications that is not compliant with the codes, ordinances, or regulations. Notice shall describe the conflict and shall cite the specific title and paragraph of the code, ordinance, or regulation. Contractor shall be responsible for removal, re -installation, re -testing, and re -commissioning of work that is found to be non -compliant with the codes, ordinances, or regulations. F. Where Drawings or Specifications call for material or construction of a better quality or larger sizes than required by the above -mentioned rules and regulations, the provisions of the Drawings or Specifications shall take precedence over requirements of the rules and regulations. G. Changes in the work after initial installation due to requirements of code enforcing agencies shall be performed by the Contractor at no additional cost to Boeing. H. Coordination: Coordinate with the appropriate "Authorities Having Jurisdiction" for this project. 1. Arrange plans and shop drawing reviews. 2. Schedule inspections in a timely manner. 3. Notify the Boeing Construction Manager of non-conformance issues. 4. Proceed with changes suggested by the Authorities Having Jurisdiction only with written authorization by the Boeing Construction Manager. 5. Make necessary corrections required by the Authorities Having Jurisdiction. 1.07 SAFETY A. Contractor shall be responsible for conditions of the job site, including safety of persons and property during performance of the Work. B. Provide safety policies, training, retraining, equipment, safeguards, restraints, permit systems, and other safety measures required by federal, state, local, and Boeing's site rules and regulations and for the safe performance of the Work. C. Comply with the "Safety and Health Regulations for Construction," 29 CFR 1926, by the U.S. Department of Labor. 260010-3 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES D. Provide safety measures continuously during work and off work hours. E. Consult with the state or federal safety inspector for interpretation whenever in doubt as to whether safe conditions do or do not exist or whether the Contractor is or is not in compliance with state or federal regulations. F. Perform safety audits, inspections, meetings, and personnel interviews in accordance with federal, state, local, and Boeing site safety rules and regulations. G. Do not use the Boeing Construction Manager's construction observations as a substitute for Contractor's safety audits and inspection responsibilities. 1.08 EQUIPMENT AND MATERIALS APPROVALS A. Whenever UL standards exist for electrical equipment and materials, provide UL listed equipment and materials. Otherwise provide equipment and materials labeled by a Nationally Recognized Testing Laboratory (NRTL) in accordance with the provisions of the Revised Code of Washington and the Washington Administrative Code. NRTL shall be one that is acceptable to the Authority Having Jurisdiction (AHJ). 1. Submit UL listing with Product Data submittals for UL listed equipment and materials. 2. Submit proof of AHJ's approval of the NRTL's qualifications to the Boeing Construction Manager not less than 14 calendar days prior to NRTL field evaluation. 3. Submit NRTL test and evaluation reports not less than 14 calendar days prior to requesting electrical inspection. 1.09 INTENT OF DRAWINGS A. Drawings are diagrammatic and show only approximate locations of ducts, conduits, cable trays, pathways, raceways, devices, and equipment. Take measurements from building or site and verify with Drawings. Because of the small scale of the Drawings, it is not possible to indicate all offsets, fittings, and accessories that may be required. Carefully investigate the plumbing, fire protection, mechanical, structural, and finish conditions that would affect the Work to be performed and arrange such work accordingly, providing required ducts, conduits, cable trays, pathways, raceways, devices, fittings, conduit bodies, and accessories to meet such conditions. B. It is the responsibility of the Contractor to provide equipment that fits into the space allotted and allows adequate acceptable clearances for installation, replacement, entry, servicing, and maintenance. When motors furnished are larger than sizes indicated, provide any required changes to the electrical services as may be necessary and related work as a part of the Work for the Section specifying that motor. C. Report any conflict to The Boeing Construction Manager prior to proceeding with the Work. Failure to follow this instruction is considered sufficient cause to alter the Work, at no cost to Boeing, as directed by the Boeing Construction Manager. D. Plans and sections generally do not show all conduits, conductors, conductor sizes, junction boxes, conduit bodies, grounding conductors, control devices, instruments, or other components; refer to diagrams or schematics to obtain a more complete description of systems. E. Provide work shown on the Drawings and provide work described in the Specifications. 260010-4 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES F. Submit questions regarding interpretation of the Contract Documents no later than 48 hours prior to the bid date to allow reasonable time for resolution of questions. 1.10 DETAIL DRAWINGS BY CONTRACTOR A. Wherever the Work is of sufficient complexity to warrant additional detailing, prepare additional detail drawings to scale 1/4 inch = 1 foot, prepared on tracing paper the same size as Contract Drawings; with these layouts, coordinate work with the work of other trades. All such detailing work shall be clearly identified on the drawings as to the area to which it applies. B. Do not submit these drawings to the Boeing Construction Manager for approval. At completion, however, include a set of such drawings with each set of as -built drawings for Boeing's record purposes. 1.11 SUBMITTALS A. Acceptance: Checking is only for general conformance with the design concepts of the information given in the Contract Documents. Any action shown is subject to the requirements of the Drawings and Specifications, which shall be confirmed and correlated at the job site; fabrication processes and techniques of construction; coordination of his work with that of all other trades; and the satisfactory performance of his work. The acceptance of a manufacturer's name or product by the Boeing Construction Manager does not relieve the Contractor of the responsibility for providing materials and equipment which comply in details with the requirements of the Contract Documents. B. Product Data: Submit manufacturer's descriptive product information including catalog cuts, performance curves, ratings, accessories, features, time -current curves, standards (i.e. ANSI, IEEE, UL, MIL, NEMA) and other information required to confirm compliance with the Drawings and Specifications. Include complete ordering numbers showing prefixes and suffixes identified for the specified product. Submittals showing generic model numbers, part numbers, product line, or other generalized information will be returned without review or rejected. C. Shop Drawings: Submit manufacturer's shop drawings including plans, elevations, sections, schedules, wiring diagrams, schematics, seismic installation instructions, and other information required to confirm compliance with the Drawings and Specifications. Shop drawings shall accurately represent the specified product, including specified options and accessories. Show the specified included options and accessories as included. Show connections to specified options and accessories. Show interconnections including shipping splits, remote wiring, fuel system, exhaust systems, and other coordination items. Submittals showing generic product -line information will be returned without review or rejected. D. Detail and Coordination Drawings: Submit Contractor prepared drawings to show how multiple systems and interdisciplinary work will be coordinated. E. Calculations: Submit calculations where specified. Include input variables, constants, formulas, assumptions, temperatures, resistances, capacitances, inductances, and other information to confirm compliance with the Drawings and Specifications. F. Samples: Submit samples complying with the requirements of the Specifications. 1. Submit samples to the Boeing Construction Manager for color and material selection where the color or material selection is not specified. 260010-5 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 2. Submit samples of devices, covers, conductors, and other items where the sample is required by the Specifications. G. Test Reports: Submit factory test reports and field quality control acceptance test reports. 1. Test reports shall include a cover sheet having the following information. a. Project title as shown on the Drawings. b. Signature of person reviewing the test report. c. Printed name and title of person reviewing the test report. d. Date reviewed. e. Company name and contact information for the company performing the test. f. Contractor name and contact information. 2. Test report data sheets shall show the following information. a. Project title, location, testing company name, date the test is performed, name of person performing the test. b. Test equipment model, serial number, and actual date the test equipment was last calibrated. Do not show the date that calibration is due. c. Test conditions including ambient temperature, humidity, and short description of weather during the test (example: raining). Show date of last rainfall for ground and earth resistance measurements. d. Show test parameters in numeric form including but not limited to voltages, currents, times, resistance, distances, and temperatures. e. Show test results in numeric form for electrical tests and mechanical measurements. Show manufacturer's minimum and maximum acceptable tolerances in numeric form for tests such as minimum pickup, time delays, contact travel, wipe, and other measurable tests. f. Show function test results. Show the input action (example. "Turned breaker control switch to "Close"") and the resultant action (example: "Breaker 52-1 closed and recharged."), and the expected reaction described in the sequence of operations shown or specified. Terms such as "Pass", "Fail", "Sat", "OK" are not to be used. H. Certificates: Submit statements printed on the manufacturer's letterhead and signed by responsible officials of manufacturer of product, system or material attesting that product, system or material meets specification requirements. Shall be dated after award of project contract and clearly name the project. Thoroughly review vendor -assembled shop drawings, catalog cuts, etc. to ensure that these documents are complete and comply with the Drawings and Specifications. The Boeing Construction Manager reserves the right to reject the complete submittal without review when documents are not complete or do not comply with the Drawings and Specifications. J. Communicate the Boeing Construction Manager's review comments to the supplier and manufacturer. Work found to be not in conformance with the Boeing Construction Manager's comments will be rejected, shall be removed from the job site and replaced with conforming work at no additional cost to Boeing. 260010-6 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 1.12 TESTING A. Acceptance Testing: Engage the services of a third party, independent testing organization to perform acceptance testing in accordance with ANSI/NETA ATS and as specified. 1. The testing organization shall be an independent, third party entity which can function as an unbiased testing authority, professionally independent of the manufacturers, suppliers, and installers of equipment or systems evaluated by the testing firm. 2. The testing organization shall be regularly engaged in the testing of electrical equipment devices, installations, and systems for a minimum of 5 years. 3. Technicians shall be certified in accordance with ANSI/NETA ETT, Standard for Certification of Electrical Testing Personnel. Each on site crew leader shall hold a current certification, Level III or higher, in electrical testing. The crew leader shall be on -site whenever testing is performed. 4. The testing organization shall use technicians who are regularly employed for testing services. 5. An organization having a "Full Membership" classification issued by the International Electrical Testing Association meets these criteria. 6. Furnish appropriate documentation of the above qualifications prior to testing. 7. The testing organization shall have a calibration program that assures that all applicable test instruments are maintained within rated accuracy for each test instrument calibrated. 8. The testing organization providing calibration service shall maintain up-to-date instrument calibration instructions and procedures for each test instrument calibrated. 9. The accuracy shall be directly traceable to the National Institute of Standards and Technology (NIST). 10. Instruments shall be calibrated in accordance with the following frequency schedule. a. Field Instruments: 12 months maximum. b. Laboratory Instruments: 12 months maximum. c. Leased Specialty Equipment: 12 months maximum. 11. Dated calibration labels shall be visible on all test equipment. 12. Records, which show date and results of instruments calibrated or tested, must be kept up to date. 13. Calibrating standard shall be of higher accuracy than that of the instrument tested. 14. Furnish test reports and data sheets complying with the requirements of Article SUBMITTALS, paragraph "Test Reports" of this Section. B. Prerequisites: Comply with the following prerequisites prior to scheduling factory witness tests and on -site system level tests and system commissioning. The Contractor is responsible for all costs incurred by Boeing including the Boeing's Representative, Engineer of Record, Commissioning Authority, and other persons required to re -witness these tests due to any failure of the Contractor, subcontractors, vendors, manufacturer's and equipment to pass the tests. 1. Submit test plans and checklists demonstrating compliance with the Contract Documents and specified references including, but not limited to National Electrical Testing Association (NETA), and National Electrical Code (NEC). Include manufacturer's written instructions. Include space on the checklist for signatories and dates for each test procedure line -item. Signatories include the Contractor, Boeing Construction Manager, Electrical Testing Organization (ETO), Commissioning Authority (CA), and Engineer of Record. Include the following additional information for each test. 260010-7 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES a. Signoff that affected trades, personnel, and jurisdictions have been notified and that affected machinery has been shut down and is secure. b. Signoff that a pre -test safety meeting has been performed and that all safety hazards and accident prevention requirements have been met. c. Signoff that a pre -test technical procedure review meeting has been performed and that all team members are familiar with the procedures. d. Signoff that acceptance testing has been completed for the affected system and components. e. Signoff that test equipment calibration is in accordance with the Contract Documents. f. Signoff that O&M's have been submitted to and accepted by the Boeing Representative. g. Signoff that dimensional clearances such as working space about electrical equipment have been met. h. Signoff that maintenance features and accessory equipment functions in accordance with the Specifications. Signoff that protective device settings are set in accordance with the Contract Documents and the coordination study. j. Include spaces to record critical time, delays, durations, and sequence information. k. Include spaces to record critical test values such as volts (V, kV), current (A, kW), kilo -watts (kW), kilowatt-hours (kWh), frequency (Hz) and similar information. C. Test wiring and electrical equipment installed on this Contract to verify wiring insulation integrity, absence of grounds and short circuits and verify proper operation, rotation, and phase relationship. D. Perform tests in the presence of the Boeing Construction Manager, or their representatives unless the witnessing requirement is waived in writing by the Boeing Construction Manager. E. Provide instruments, load banks, controls and protection settings, and personnel required to conduct the tests. F. Provide all test reports, waivers, calibration certificates, and drawings. The documents shall become the property of Boeing upon completion of construction. G. Record the settings of adjustable breakers and overcurrent relays and submit the record as part of the closeout submittals. H. Provide acceptance testing of each adjustable breaker, electronic trip breaker, protective relay and overcurrent relay in accordance with NETA ATS and applicable ANSI standards. I. Replace equipment not meeting the test result evaluation criteria. Perform tests on the replacement equipment. J. Place a sticker on each piece of tested equipment indicating the date of the test and the name of the testing agency. K. Record the results of the tests and submit the record as part of the closeout submittals. 260010-8 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 1.13 INSPECTIONS A. Observations will be conducted periodically throughout the construction by the Boeing Construction Manager. B. On -site meetings or reviews of construction by the Boeing Construction Manager shall not be construed as acceptance by these parties as related to quantities, rough -in locations, and compliance with code enforcing authorities unless specific exceptions have been bought to the attention of the Boeing Construction Manager and have been accepted in writing. C. When requesting final inspection, provide notice in accordance with Division 01. Submit written certification that the work has been fully completed in strict accordance with plans and Specifications. D. Notify the Boeing Construction Manager upon completion of the following tasks. 1. Equipment labeling. 2. Conduit marking. 3. Wire and cable identification. 4. Replacement of damaged equipment. 5. Touch-up painting. 6. Posting of completed panel schedules. 7. Resolution of previously noted comments. 8. Installation of previously missing equipment. E. Obtain a Certificate of Final Electrical Inspection from the local Authority Having Jurisdiction stating that work had been inspected, accepted and approved as complying with existing governing ordinances and codes. F. Submit to the Boeing Representative upon completion of the project as part of project closeout. 1.14 FINAL PUNCHLIST A. When The Boeing Construction Manager is completing punchlist during final inspection, provide access to devices as requested by the Boeing Construction Manager, including ceiling tile removal and replacement. B. Provide ladders, scaffolds, staging, safe opening of equipment, and accessories required to access the devices and work. C. Demonstrate the operation of equipment upon request of the Boeing Construction Manager. 1.15 WARRANTY A. Provide a warranty for electrical work in accordance with the provisions of the General Conditions. Submit the warranty in written form. B. Furnish the originals of manufacturers' warranties for Boeing's records. 260010-9 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 1.16 ABBREVIATIONS, DEFINITIONS, AND REFERENCE STANDARDS A. Reference standards, definitions, and abbreviations are as follows. A Amperes AISC American Institute of Steel Construction ANSI American National Standards Institute ASHRAE American Society of Heating, Refrigerating and Air -Conditioning Engineers ASTM American Society for Testing and Materials as shown as shown on the Drawings C Degrees Celsius DPDT Double Pole, Double Throw F Degrees Fahrenheit FRP Fiberglass reinforced plastic Hz Hertz (frequency) IBC International Building Code kVA Kilovolt -Ampere kVAR Kilovolt -Ampere Reactive kW Kilowatt kWH Kilowatt -Hour mA Milliamperes mV Millivolts MVA Megavolt Amperes NEC National Electrical Code NEMA National Electrical Manufacturer's Association NETA InterNational Electrical Testing Association NFPA National Fire Protection Association provide furnish and install psig pounds per square inch gage pressure SPDT Single Pole, Double Throw UL Underwriters Laboratories, Inc. V Volts VAC Volts Alternating Current VDC Volts Direct Current 1.17 OPERATION AND MAINTENANCE MANUALS A. Prepare an operation and maintenance manual for equipment provided. B. Operation and maintenance manuals shall Conform to the requirements of the Washington State Energy Code. 1.18 RECORD DRAWINGS A. Record drawings shall conform to the requirements of the Washington State Energy Code. B. Duct banks and conduits installed below grade shall be shown with both horizontal and vertical dimensions at an accuracy of plus or minus 6 inches. C. Show the actual equipment installed. Dimensions on plans, elevations, and sections shall match exactly as installed. D. Approved modifications to equipment in the field shall be shown on the record drawings to reflect the "as -built" conditions. 260010-10 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES E. Record drawings shall be consistent. Changes made to plans, elevations, sections, wiring diagrams, schematics, or functional diagrams shall be made to related or otherwise affected plans, elevations, sections, wiring diagrams, schematics, or functional diagrams. 1.19 SITE CONDITIONS AND METHODS A. Cutting and Patching: Keep cutting and patching to a minimum. Patching shall conform to Specifications for the new general construction work unless otherwise indicated. Finish materials to match existing work. B. Measurements: Verify space availability by field measurement prior to submitting Shop Drawings for approval. C. Roughing -In Dimensions: Obtain roughing -in dimensions for equipment from approved Shop Drawings or actual equipment measurements. D. Manufacturer's Installation Instructions: Follow manufacturer's written instructions where furnished. If the details are in conflict with the Drawings, notify The Boeing Construction Manager for resolution. E. Accessibility: Install products which require periodic servicing or repair so that products are readily accessible. Otherwise, obtain Boeing Construction Manager's approval of location. F. Rejected Materials: Remove damaged or rejected materials from the site. G. Delivery, Storage, and Handling: 1. Handle, store, and protect equipment and materials to prevent damage before and during installation in accordance with the manufacturer's recommendations and as approved by the Boeing Construction Manager. Replace damaged or defective items. 2. Equipment with damaged factory applied finishes shall be refinished to bring the equipment to a like -new condition in accordance with manufacturer's recommendations. 3. Conduits shall be maintained clean, free of debris, and dry from fabrication through field installation. Open ends shall be sealed with plastic at the end of each workday. Maintain sealing procedure until installation is completed. Damaged, wet, and dirty conduits shall be removed from site. 4. All components and equipment shall be maintained clean, free of debris, and dry from fabrication through field installation. Openings shall be sealed with plastic at all times except when the equipment is in the process of being connected to conduits and connected equipment. Maintain sealing procedure from fabrication until installation is completed with conduits connected to the equipment. 1.20 INSTRUCTION FOR OWNER'S PERSONNEL A. Following initial operation of electrical equipment and prior to acceptance of the electrical work, conduct demonstrations of equipment operation and instruction periods for Boeing's personnel during the time acceptance testing work is being performed. B. Contractor's representatives, in general, who conduct these instructions and demonstrations shall be qualified foremen or superintendents acquainted with this project and from the trade involved. Vendor representatives shall be manufacturer's personnel having operating experience and substantial knowledge of the design for this project. 260010-11 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES Their qualifications shall be submitted to the Boeing Construction Manager before conducting the instruction period. C. Representatives of Boeing who will be present at these meetings may include Boeing's administrative, operating, and maintenance personnel; and for fire protection systems, representatives of authorities having jurisdiction. D. General Description of Instruction Periods: Each period shall include preliminary discussion and presentation of information from operation and maintenance manuals with appropriate references to Drawings, followed by tours of equipment spaces explaining maintenance requirements, access methods, servicing, and maintenance procedures, temperature settings, and available system and equipment adjustments. E. Utilize visual aids such as handouts, books, tutorials, slides, video or movies in the training. Furnish the visual aids to the Boeing Construction Manager as part of Boeing's permanent files to be used for reference, refresher, and retraining. F. Training Agenda: 1. Operator training shall provide a complete overview of equipment, components, and systems with an emphasis on the following. a. Documentation in the final operations and maintenance manuals. b. How to use the operations and maintenance manuals. c. System operational procedures for all modes of operation, including warm-up, cool -down, occupied, unoccupied, startup, shutdown, etc. d. Acceptable tolerances for system adjustments in all operating modes including voltage, current, frequency, and efficiency adjustments. e. Procedures for dealing with abnormal conditions including emergency operations, retrieving event reports, and resetting relay targets. f. Hazards and safety. g. Control sequences. h. Review of maintenance and operations in relation with applicable warranties, agreements, to maintain and service, and similar continuing commitments. 2. Include hands-on training for equipment operation including normal and emergency procedures. Show locations and demonstrate the use and adjustment of certain components including mode selector switches, control switches, overcurrent protection devices, and maintenance equipment. Demonstrate lock -out and tag -out features. 3. Show the locations of protective relays, relay test switches, current transformer shorting terminals. Emphasize the knowledge requirements and qualifications needed adjust, change settings, or these devices. G. Retraining: After final commissioning, electrical operation and maintenance personnel shall be instructed by the Contractor on changes and reconfiguration which may have occurred during the commissioning process. H. Duration of Instruction Periods: Training periods shall be in increments of 4 hours. Training for a particular subject below shall not exceed eight hours (2 periods) in a single day. The minimum durations required are specified in the technical Section for the equipment, component, or system affected. 1.21 CLOSEOUT SUBMITTALS A. Submit warranties, record drawings, certificates, inspections, punch lists, test reports, and operations and maintenance manuals for electrical equipment installed on this project. 260010-12 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES B. Submit acceptances by the inspecting Authorities Having Jurisdictions for electrical equipment installed on this project. PART 2 - PRODUCTS Not Used. PART 3 - EXECUTION 3.01 DEMOLITION EXAMINATION A. Verify measurements are as shown on the Drawings. B. Demolition Drawings are based on field observation and existing record documents. Report discrepancies to The Boeing Construction Manager before disturbing existing installation. C. Contractor accepts existing conditions upon beginning the Work. D. Provide temporary connections to maintain existing systems in service during construction. When work must be performed on energized equipment, use personnel experienced in such operations and perform the work in accordance with laws, rules, and regulations. E. Where conduit is indicated on Drawings to be abandoned, remove conductors, remove debris from inside the conduit, and seal the conduit openings unless indicated otherwise. F. Repair adjacent construction and finishes damaged during demolition and extension work. G. Maintain access to existing installations which remain active. Maintain NEC required working space around and above electrical equipment. 3.02 EQUIPMENT CONNECTIONS A. Coordinate and provide raceway, wiring, junction boxes, switches, receptacles, overcurrent protection, anchors, supports, and connections required by equipment manufacturers to make the equipment and systems completely functional. This includes, but is not limited to, items between equipment or components of same or different manufacturers, whether or not the items are shown on Drawings, Specifications, shop drawings, or product data. It is the Contractor's responsibility to ensure that the shop drawings show the required connections and associated devices. B. Test continuity and insulation resistance of conductors. C. Test interconnection functionality and demonstrate that the interconnections result in the function intended by the Contract Documents. D. Test overcurrent protective devices. END OF SECTION 260010-13 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES SECTION 26 05 00 COMMON WORK RESULTS FOR ELECTRICAL PART 1 - GENERAL 1.01 SECTION INCLUDES A. The Work of this Section includes supports, anchors, fasteners, nameplates, labels, wire markers, raceway markers, vibration isolators, equipment housekeeping pads, sealing, and firestopping. 1.02 REFERENCES A. ANSI/NETA ATS (InterNational Electrical Testing Association) — Standard for Acceptance Testing Specifications for Electrical Power Distribution Equipment and Systems. B. ANSI/NETA ETT (InterNational Electrical Testing Association) — Standard for Certification of Electrical Testing Technicians. C. ASTM A153/A153M (ASTM International) — Standard Specification for Zinc Coating (Hot -Dip) on Iron and Steel Hardware. D. ASTM A193/A193M-12b (ASTM International) — Standard Specification for Alloy -Steel and Stainless Steel Bolting for High Temperature or High Pressure Service and Other Special Purpose Applications. E. ASTM A240/A240M (ASTM International) — Standard Specification for Chromium and Chromium -Nickel Stainless Steel Plate, Sheet, and Strip for Pressure Vessels and for General Applications. F. ASTM A276-13 (ASTM International) — Standard Specification for Stainless Steel Bars and Shapes. G. ASTM B633 (ASTM International) — Standard Specification for Electrodeposited Coatings of Zinc on Iron and Steel. H. ASTM F593 - 13 (ASTM International) — Standard Specification for Stainless Steel Bolts, Hex Cap Screws, and Studs. I. ASTM F594 — 09e1 (ASTM International) — Standard Specification for Stainless Steel Nuts. J. NECA (National Electrical Contractors Association) — Standard of Installation. 1.03 DESIGN REQUIREMENTS A. Select materials, sizes, and types of anchors, fasteners, and supports to carry loads of equipment and raceway, including weight of wire and cable in raceway. 1.04 SUBMITTALS A. Product Data: 1. Submit product data and tabulated lists of nameplate, label, and marker types for equipment, devices, and wiring. Group the list by type of equipment, device, and 260500-1 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES wiring. Include material type and thickness, font type, size, vertical and horizontal spacing (tracking), number of rows, colors, and other specified features. 2. Submit product data for sealants. Identify the specific application for which the sealant is being submitted. Include manufacturer's instructions showing approved and prohibited installation methods. 3. Submit product data for firestopping. Identify the specific application for which the firestopping is being submitted. Include manufacturer's instructions showing approved and prohibited installation methods. 4. Submit product data for anchors and fasteners. Include rated load and pull-out strengths. 1.05 CLOSEOUT SUBMITTALS A. Include product data for firestopping and sealing products in the Operations and Maintenance manuals. 1.06 QUALIFICATIONS A. Manufacturer: Company specializing in manufacturing products specified in this Section with minimum 3 years documented experience and with service facilities within 100 miles of project. 1.07 FIELD MEASUREMENTS A. Verify field measurements prior to fabrication. PART 2 - PRODUCTS 2.01 ANCHORS AND FASTENERS A. Anchor Bolts: 1. Anchor Bolts (Cast —In —Place): Galvanized steel bolts per ASTM A307 and galvanized steel nuts per ASTM A194. Number and size per manufacturer's recommendations or as shown. In concrete construction, provide bolts set in the formwork before pouring concrete. In building floors where equipment bases are cast iron over 18 inches maximum dimension, provide a pipe sleeve around each bolt to allow for positioning. 2. Anchor Bolts (Expansion Type): Molly "Parabolt" or Hilti "Kwik-Bolt III"; Type 304 stainless steel construction; with impact section on the end of the bolt. 3. Anchor Bolts (Adhesive Type): Hilti "Type HIT RE 500 SD Epoxy Adhesive "; two part adhesive cartridge and zinc plated Type A307 steel threaded rod assembly with ASTM A194 nut; IBC compliant. 2.02 FORMED STEEL CHANNEL A. Manufacturers: 1. B-Line. 2. Globestrut. 3. Unistrut. B. Description: Strut -type support and fittings. 1. Provide ASTM Al53/A153M hot -dip galvanized steel. Minimum thickness shall be 2.6 mils in indoor locations. 2. Provide ASTM A240 Type 304 or Type 316 stainless steel in outdoor locations. 260500-2 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 2.03 NAMEPLATES A. Provide three -layer laminated melamine plastic nameplates for each item specified in the technical Sections and for those shown on the drawings. Items requiring nameplates include, but are not limited to the following. 1. Switchgear and switchboards. 2. Panelboards. 3. Equipment enclosures. 4. Relays. 5. Switches. 6. Devices. B. Colors: 1. Matt white background with black letters for normal power. 2. Matt red background with black letters for emergency power. C. Nameplate Size: 1 inch in height. D. Letter Size: Provide letters 1/2 inch in height. E. Legend: Provide nameplates with identification and other information as shown on the Drawings. F. Attachment: Screws or rivets. Adhesive not permitted. 2.04 LABELS A. Description: Embossed adhesive tape, with 3/8 inch letters on white background. B. Colors: Black letters for normal power circuits. Red letters for emergency power circuits. 2.05 ARC FLASH LABELS A. Comply with NFPA 70E. 2.06 WIRE MARKERS A. Description: Cloth tape, split sleeve or tubing type wire markers. B. Legend: 1. Power and Lighting Circuits: Branch circuit or feeder number. 2. Control Circuits: Control wire number as indicated on shop drawings. 2.07 CONDUIT MARKERS A. Description: Split -tube type. B. Color: 1. 480 Volt System: Black lettering on white background. 2. 208 Volt System: Black lettering on white background. 3. Fire Alarm System: Red lettering on white background. 4. Communication System: Blue lettering on white background. C. Legend: 1. 480 Volt System: 480 VOLTS. 260500-3 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 2. 208 Volt System: 208 VOLTS. 3. Fire Alarm System: FIRE ALARM. 4. Communication System: TELEPHONE. 2.08 CIRCUIT DIRECTORIES A. Provide typewritten circuit directories for all switchboards and panelboards, including breaker/fuse identification and size, equipment or system served and locations. B. Place directories inside doors under transparent plastic covers. 2.09 VIBRATION AND NOISE ISOLATORS A. Pad Type: 1. Manufacturers: a. Mason Industries Model "Super W". b. Kenetics Noise Control Model "RSP". c. California Dynamics Corporation (CALDYN) Model "ECP". 2. Product Description: Type N-5: Neoprene Pad. 3. Isolator shall consist of 3/4-inch thick molded neoprene. 4. Pad shall be either a ribbed or waffle type construction. 5. Isolator shall have a 50-durometer rating. 6. Isolator shall be loaded to limit surface pressure to a maximum of 50 psi. 7. Isolator shall be equipped with a steel plate bonded to the neoprene pad if required for proper load distribution. 2.10 SLEEVES A. Round: Rigid galvanized steel conduit (RGS). B. Rectangular: Galvanized sheet steel. 1. Perimeter less than 50 inches with no side greater than 16 inches: 18 Gage. 2. Perimeter equal to or greater than 50 inches or with a side greater than 16 inches: 10 Gage. 2.11 PULL STRINGS A. Empty Conduits Leaving Panelboards, Switchboards, and Motor Control Centers: Provide nylon pull strings having minimum tensile strength of 100 pounds. B. Empty Conduits Leaving Switchgear: Provide nylon pull strings having minimum tensile strength of 500 pounds. C. Empty Ducts Underground: Provide polypropylene pull rope having minimum tensile strength of 1500 pounds. PART 3 - EXECUTION 3.01 EXAMINATION A. Verify final backfill and compaction has been completed before driving rod electrodes. B. Verify wiring and equipment that are about to be demolished are no longer required for the facility. 26 05 00 - 4 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES e 1 F 3.02 EXISTING WORK A. Demolition drawings may not show all existing conditions. Report discrepancies to Boeing Construction Manager before disturbing existing installation. Protect existing systems not designated for removal or demolition from damage. Repair or replace any systems inadvertently damaged. B. Disconnect electrical systems in walls, floors, and ceilings scheduled for removal. C. Remove, relocate, and extend existing installations to accommodate new construction. D. Install temporary wiring and connections to maintain existing systems in service during construction. E. Repair adjacent construction and finishes damaged during demolition and extension work. 3.03 ANCHOR BOLTS A. New Concrete Construction: 1. Anchor Bolts (Cast —In —Place): Set anchor bolts in the formwork before pouring concrete. Number and size of anchor bolts shall be per manufacturer's recommendations or as shown on Drawings. Install anchor bolts through concrete equipment pads to structural concrete slab. In building floors where equipment bases are cast iron over 18 inches maximum dimension, provide a pipe sleeve around each bolt to allow for positioning. B. Existing Concrete Construction: 1. Anchor Bolts (Expansion Type): Use only where necessary to support piping, ductwork, and anchor non -rotating equipment from existing concrete slabs and walls. Install expansion type anchor bolts in holes drilled in concrete. Install anchor bolts through concrete equipment pads, installed into existing structural concrete slabs. 2. Anchor Bolts (Adhesive Type): Use only where necessary to anchor rotating equipment from existing concrete slabs and walls. Install adhesive type anchor bolts in holes drilled in concrete. Install anchor bolts through concrete equipment pads, installed into existing structural concrete slabs. Do not use adhesive type anchor bolts in tension. 3. Powder actuated inserts are not acceptable. 3.04 INSTALLATION A. Supports: 1. Install electrical systems and equipment attached directly to structure and to dedicated supports attached directly to structure. Attach supports to structure, independent of all other equipment and systems. Do not fasten electrical equipment to pipes, ducts, mechanical equipment, other equipment or the supports for such equipment or systems. 2. Fabricate supports from structural steel or formed steel members. Rigidly weld members or install hex -head bolts to present neat appearance with adequate strength and rigidity. Install spring lock washers under nuts. 3. Locate and install anchors, fasteners, and supports in accordance with seismic requirements. 4. Install surface mounted cabinets and panelboards with minimum of four anchors. 260500-5 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 5. In wet and damp locations install stainless steel channel supports to stand cabinets and panelboards a minimum of 3/4 inch off the wall. 6. Install sheet metal channel to bridge studs above and below cabinets and panelboards recessed in hollow partitions. 7. Do not use powder -actuated anchors. 8. Do not drill or cut structural members. B. Identification Components: 1. Degrease and clean surfaces to receive nameplates and labels. 2. Install nameplate and label parallel to equipment lines. 3. Secure nameplate to equipment front using screws or rivets. 4. Secure nameplate to inside surface of door on recessed panelboard in finished locations. 5. Conduit Marker Spacing: 20 feet on center. 3.05 SLEEVES AND SEALING OF ELECTRICAL PENETRATIONS THROUGH NON -FIRE RESISTIVE FLOORS, WALLS, AND PARTITIONS A. Concrete Floors: 1. In existing construction and pre -poured construction, coordinate work with existing conditions and verify locations of encased obstructions and reinforcing steel in accordance with Section 26 05 00 prior to core drilling in existing concrete. 2. In new construction, coordinate work and set sleeves in place prior to pouring concrete. 3. Core drill and install rigid galvanized sleeves sized to leave 1/4 inch for bare conduit sleeves or 1/2 inch for sealed sleeves. 4. Install conduit through sleeve, permanently support conduit below and above the penetration, and install watertight seals. 5. Install continuous or welded steel dams around conduit penetrations. Dams shall be a minimum of 1 inch above the floor and shall be impervious to water, oils, refrigerants, and other liquid substances used in this project. Anchor dam to floor and install minimum of 1/2 inch width of grouting around outside edge of the dam. B. Concrete Walls: 1. In existing construction and pre -poured construction, coordinate work with existing conditions and verify locations of encased obstructions and reinforcing steel in accordance with Section 26 00 10 prior to core drilling in existing concrete. 2. In new construction, coordinate work and set sleeves in place prior to pouring concrete. 3. Core drill and install rigid galvanized sleeves sized to leave 1/4 inch for bare conduit sleeves or 1/2 inch for sealed sleeves. 4. Install conduit through sleeve, permanently support conduit on both sides of the wall penetration and install seals. C. Exterior Walls: 1. Install conduit seals on conduits penetrating exterior walls. 2. Slope underground conduits down and away from the building. 3. Install flashing and penetration systems for work above grade. Penetration systems shall be watertight, sunlight resistant, and oil resistant. D. Roof Penetrations: 1. Coordinate with architectural and structural rooftop elements. 260500-6 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 2. Provide prefabricated penetration flashing unit engineered for conduit penetrations through roof systems and wall penetrations. Use materials and methods specifically recommended by the roofing system manufacturer unless otherwise specified or shown on Drawings. E. Coordination with Architectural and Structural Elements: 1. Coordinate penetrations and finishes with architectural and structural work. 2. Notify the Boeing Construction Manager immediately where the sealing and finishing of conduit penetrations specified in this Section conflict with the building construction material or finish. 3.06 CLEANING A. Leave premises thoroughly clean at completion. END OF SECTION 260500-7 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES SECTION 26 05 20 WIRE AND CABLE (600 VOLTS AND LESS) PART 1 - GENERAL 1.01 SECTION INCLUDES A. The Work of this Section includes the following items. 1. Building wire and cable. 2. Motor circuit conductors for variable speed drive applications. 3. Conductors for VSD. 4. Wiring connectors and connections. 1.02 REFERENCES A. ANSI/NETA ATS (InterNational Electrical Testing Association) — Standard for Acceptance Testing Specifications for Electrical Power Distribution Equipment and Systems. B. ANSI/NETA ETT (InterNational Electrical Testing Association) — Standard for Certification of Electrical Testing Technicians. C. NECA (National Electrical Contractors Association) — Standard of Installation. D. NEMA WC 70 (National Electrical Manufacturers Association) — Power Cables Rated 2000 Volts or Less for the Distribution of Electrical Energy. E. NFPA 70 (National Fire Protection Association) — National Electrical Code. F. UL 44 (Underwriters Laboratories) — Thermoset -Insulated Wires and Cables. G. UL 83 (Underwriters Laboratories) — Thermoplastic -Insulated Wires and Cables. H. UL 489A-489B (Underwriters Laboratories) — Wire Connectors. UL 489C (Underwriters Laboratories) — Splicing Wire Connectors. J. UL 1569 (Underwriters Laboratories) — Metal -Clad Cables. 1.03 SYSTEM DESCRIPTION A. Conductors for wiring electrical power, lighting, and control circuits. Provide conductors, conduits, boxes, conduit bodies, fittings, wiring devices, terminations, splices, connections, identification, and testing. 1.04 SUBMITTALS A. Product Data: Submit for building wire and each cable assembly type. 1. Insulation type, conductor material, conductor strands, voltage, ampacity, and UL listing. 1.05 CLOSEOUT SUBMITTALS A. Field Quality Control Test Reports: Submit test reports in accordance with Section 26 00 10. 260520-1 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES B. Project Record Documents: Record actual locations of components and circuits. 1.06 QUALIFICATIONS A. Manufacturer: Company specializing in manufacturing products specified in this Section with minimum 3 years documented experience. 1.07 FIELD MEASUREMENTS A. Verify field measurements are as indicated on Drawings. 1.08 COORDINATION A. Determine routes and lengths where not indicated on the Drawings. Coordinate route with structural members, architectural requirements, and with work by other trades. Pay for costs of routing and rerouting circuits. PART 2 - PRODUCTS 2.01 GENERAL A. Conductors shall be copper. B. Conductors for installation in a cable tray shall be UL listed and marked for cable tray use. C. Furnish solid conductor for feeders and branch circuits 10 AWG and smaller. D. Stranded conductors for control circuits. E. Power and lighting circuits shall not be smaller than 12 AWG. F. Control circuits shall not be smaller than 16 AWG. G. Furnish 12 AWG conductors for 20 A, 120 V branch circuits not exceeding 50 feet in conductor length. H. Furnish 10 AWG conductors for 20 A, 120 V branch circuits longer than 50 feet but not exceeding 100 feet in conductor length. Furnish 12 AWG conductors for 20 A, 277 V branch circuits not exceeding 100 feet in conductor length. J. Furnish 10 AWG conductors for 20 A, 277 V branch circuits longer than 100 feet but not exceeding 150 feet in conductor length. K. Wire coloring shall be integral to the jacket or insulation for wires 6 AWG and smaller. For wires 4 AWG and larger, furnish colored tape or colored shrink -to -fit sleeves. L. Wire Colors, 120/240 V Single -Phase Systems: 1. L1 shall be black. 2. L2 shall be red. 3. Neutral shall be white. 260520-2 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES M. Wire Colors, 120/208 V Three -Phase Systems: 1. A -Phase shall be black. 2. B-Phase shall be red. 3. C-Phase shall be blue. 4. Neutral shall be white. N. Wire Colors, 277/480 V Three -Phase Systems: 1. A -Phase shall be brown. 2. B-Phase shall be orange. 3. C-Phase shall be yellow. 4. Neutral shall be grey. O. Neutral Conductors: When two or more neutrals are located in one conduit, individually identify each with proper circuit number using shrink -to -fit wire sleeve. P. Branch Circuit Conductors: Install three- and four -wire home runs with each phase uniquely color coded. Q. Feeder Circuit Conductors: Uniquely color code each phase. R. Equipment Ground Conductors: 1. For 6 AWG and Smaller: Green. 2. For 4 AWG and Larger: Identify with green tape or shrink -to -fit sleeves at both ends and at visible points including junction boxes. 2.02 BUILDING WIRE A. Product Description: UL 44 thermoset insulated conductors and UL 83 thermoplastic insulated conductors. B. Insulation Types: Furnish the following insulation types unless otherwise shown on the Drawings. Refer to Part 3 of this Section for installation methods and additional requirements. 1. Direct Buried Conductors, where shown, shall be NFPA 70 Type USE-2. 2. Feeders 2 AWG and Larger: NFPA 70; Type XHHW-2. 3. Feeders Smaller than 2 AWG: NFPA 70; Type THHN/THWN, XHHW, or XHHW-2. 4. Branch Circuits 2 AWG and Larger: NFPA 70; Type XHHW-2. 5. Branch Circuits Smaller than 2 AWG, Installed Indoors: NFPA 70; Type THHN/THWN, XHHW, or XHHW-2. 6. Branch Circuits Smaller than 2 AWG, Installed Outdoors or Below Ground: NFPA 70; Type XHHW-2. C. Conductor: Copper. 2.03 MOTOR CIRCUIT CONDUCTORS FOR VARIABLE SPEED DRIVE APPLICATIONS A. Manufacturers: 1. Okonite. 2. Substitutions: Approved equal. B. Product Description: UL 1569 Type MC-HL armored cable listed for use in cab►e tray and conduit. 260520-3 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES C. Conductors: ASTM B3 uncoated soft copper. Sizes smaller than 8 AWG shall be ASTM B8 compressed stranded. Sizes 8 AWG and larger shall be ASTM B496 compact stranded. D. Conductor Identification: Comply with general requirements specified in this Section. E. Insulation: UL 44 type XHHW-2; 600 V. Thermoplastic insulation is not acceptable. F. Ground Conductors: UL 1581, ASTM B3 stranded conductors. Furnish three distributed ground conductors, symmetrically spaced 120 degrees apart. Combined area shall meet the NEC requirements for the application. G. Sheath: UL 1569 close fitting, impervious, continuous, welded, corrugated aluminum. H. Shielding: Provided by sheath. Furnish UL 2225, UL 514B fittings; watertight grounding type. Temperature Rating: 90 degrees C in wet and dry applications. 2.04 WIRE CONNECTORS, COMPRESSION TYPE A. Product Description: UL 486A-486B wire connectors, mechanical set -screw, split -bolt, and high-pressure type. B. Manufacturers: 1. 3M. 2. Thomas & Betts (T&B). C. Construction: Plated copper connector without insulation. With or without set -screws. D. Operating Temperature: Rated not less than the higher of the wire or equipment terminal temperature. E. Color: Manufacturer's standard colors, coded by wire size and quantity application. F. Use Restrictions: 1. For each type and size installed, all shall be of the same manufacturer. 2. Use on conductors at equipment terminal pads. Used for in -line splices when included in a UL listed splice kit. 3. Crimp type connectors shall be installed using manufacturer -approved ratcheting, hydraulic, or air -powered crimping tool and die. 2.05 SPLICING WIRE CONNECTORS, SOLDERLESS CRIMP TYPE A. Product Description: UL 489A-B and 486C splicing wire connectors; insulated, crimp -type connectors, splices, and terminals. B. Manufacturers: 1. 3M. 2. Stakon. C. Construction: Vinyl or nylon insulation covering tin or silver-plated annealed copper connector. D. Operating Temperature: Rated for use up to 105 degrees C. 260520-4 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES E. Voltage Rating: 600 V. F. Color: Manufacturer's standard colors, coded by wire size. G. Use Restrictions: 1. Crimp type connectors shall be installed using manufacturer -approved ratcheting crimping tool and die. 2. For each type and size installed, all shall be of the same manufacturer. 3. In -line splices shall only be used for extending existing circuits where specifically called out on drawings. 4. End -cap solderless crimp type shall be used only for permanent, non -maintenance applications. 5. Insulation -displacing splices and connectors shall not be used. 6. Terminal connectors for current transformer secondary circuits, relays, meters, test blocks, and shorting blocks shall be ring type. Spade terminals shall be rejected. 2.06 SPLICING WIRE CONNECTORS, SPRING TYPE A. Product Description: UL 486C splicing wire connectors. B. Manufacturers: 1. 3M Performance Plus. 2. Substitutions: Approved equal. C. Construction: Spring steel, corrosion resistant coating with flame retardant, polypropylene and thermoplastic elastomeric insulator. D. Operating Temperature: Rated for use up to 105 degrees C. E. Voltage Rating: 600 V when used as building wire splices. 1000 V when used for signs and luminaires. F. Flammability: UL 94 V-2. G. Color: Manufacturer's standard colors, coded by wire size and quantity application. H. Use Restriction: Conductors 16 AWG to 8 AWG, in receptacle, switch, and rotating equipment termination boxes only. PART 3 - EXECUTION 3.01 EXAMINATION A. Verify interior of building has been protected from weather. B. Verify mechanical work likely to damage wire and cable has been completed. C. Verify raceway installation is complete and supported. 3.02 PREPARATION A. Completely and thoroughly swab raceway before installing wire. 260520-5 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES B. Protect exposed cable from damage and moisture. Apply shrink -to -fit sealing caps on wire and cable reels when stored outdoors. 3.03 EXISTING WORK A. Remove exposed abandoned wire and cable, including abandoned wire and cable above accessible ceiling finishes. Patch surfaces where removed cables pass through building finishes. B. Disconnect abandoned circuits and remove circuit wire and cable. Remove abandoned boxes when wire and cable servicing boxes is abandoned and removed. Install blank cover for abandoned boxes not removed. C. Provide access to existing wiring connections remaining active and requiring access. Modify installation or install access panel. D. Extend existing circuits using materials and methods as specified. E. Clean and repair existing wire and cable remaining or is wire and cable to be reinstalled. 3.04 INSTALLATION A. Replace damaged conductors at no additional cost to Boeing. B. Neatly train and lace wiring inside boxes, equipment, and panelboards. C. Identify circuits under provisions of Section 26 05 00. Identify each conductor with its circuit number or other designation indicated. D. Pull conductors into raceway at same time. E. Use wire -pulling equipment including fish -tape, rope, or cable appropriate for the size of wire, conduit, and circuit length. Use basket -weave wire/cable grips for multiple conductors over 2 AWG. F. Use manufacturer -approved pulling compound or lubricant where necessary. Compound used shall not deteriorate conductors or insulation. G. Pull wire in accordance with the wire manufacturer's recommended pulling tensions and side wall pressure values. H. Feeder Circuits: 1. Provide feeder circuits in conduit unless otherwise shown on Drawings. 2. Provide feeder conductors in continuous lengths, without splices, unless otherwise shown on the Drawings. Branch Circuits: 1. Provide branch circuits in conduit unless otherwise shown on Drawings. J. Dedicated Neutral: Provide dedicated neutral conductors for 120 V and 277 V circuits. K. Cord Drops and Portable Appliance Connections: Use only Type SO, hard service cord with stainless -steel, wire -mesh, and strain relief device at terminations. 260520-6 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES L. Above Accessible Ceilings: Provide wiring above accessible ceilings in conduit unless otherwise shown on the Drawings. M. Class 1 and Class 2 Control Circuits: Provide Class 1 and Class 2 wiring in conduit unless otherwise shown on the Drawings. N. Exterior Locations: Provide conductors in conduit. O. Circuits Concealed in Concrete: Provide conductors in conduit. P. Circuits Concealed in Exterior Walls: Provide conductors in conduit. Q. Underground Locations: Provide conductors in conduit. R. Wiring Connections: 1. Clean conductor surfaces before installing lugs and connectors. 2. Make splices, taps, and terminations to carry full ampacity of conductors with no perceptible temperature rise. 3. Tighten electrical connectors and terminals according to manufacturers published torque -tightening values. If manufacturer's torque values are not indicated, use those specified in UL 486A-486B. 4. Tape uninsulated conductors and connectors with electrical tape to 150 percent of insulation rating of conductor. 5. Make splices and taps that are compatible with conductor material and that possess equivalent or better mechanical strength and insulation ratings than unspliced conductors. a. Install split bolt connectors for copper conductor splices and taps, 6 AWG and larger except where in -line splices are specified. b. Install solderless pressure connectors with insulating covers for copper conductor splices and taps, 8 AWG and smaller. c. Install insulated spring wire connectors with plastic caps for copper conductor splices and taps, 10 AWG and smaller. 6. Wiring at Outlets: Install conductor at each outlet, with at least 6 inches of slack. 7. Install solid conductors for feeders and branch circuits 10 AWG and smaller. If, however, special conditions require stranded conductors in lieu of solid, then install crimp on locking (barbed) fork terminals for device terminations. Do not place bare stranded conductors directly under screws. 3.05 FIELD QUALITY CONTROL A. Perform insulation resistance (Megger) test on conductors 2 AWG and larger. Measure resistance phase to phase and phase to ground for one minute. Test voltage shall be 1000 VDC. Record results. Minimum acceptable insulation resistance shall be 100 megohms in accordance with ANSI/NETA ATS, Table 100.1. B. Remove and replace defective conductors, splices, and terminations until test results meet the specified requirements. END OF SECTION 260520-7 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES SECTION 26 05 26 GROUNDING AND BONDING FOR ELECTRICAL SYSTEMS PART 1 - GENERAL 1.01 SECTION INCLUDES A. The Work of this Section includes requirements for bonding and grounding of electrical equipment and systems. 1.02 REFERENCES A. NECA (National Electrical Contractors Association) — Standard of Installation. B. NFPA 70. C. UL 467 (Underwriters Laboratories) — Grounding and Bonding Equipment. 1.03 SYSTEM DESCRIPTION A. Grounding System Elements: Use the following elements as grounding electrodes in accordance with NFPA 70 National Electrical Code. 1. Existing switchboard and panelboard grounding buses. PART 2 - PRODUCTS 2.01 WIRE A. Material: Furnish building wire in accordance with Section 26 05 20. PART 3 - EXECUTION 3.01 EXAMINATION A. Verify wiring and equipment that are about to be demolished are no longer required for the facility. 3.02 EXISTING WORK A. Disconnect power sources and test for ground current prior to disconnecting and removing bonding or grounding conductors. 3.03 INSTALLATION — GENERAL A. Provide bonding and grounding conductors and connections in accordance with the National Electrical Code as adopted by the Authority Having Jurisdiction. B. Install grounding connections in accordance with their UL listing. C. Where the grounding materials and methods specified and shown exceed that of the National Electrical Code and the Authority Having Jurisdiction, the materials and methods specified and shown shall be used. D. Mechanical connections shall be accessible. 260526-1 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES E. Stranded grounding or bonding conductors larger than 8 AWG shall be connected using exothermal or die -crimped compression terminals. F. Tighten accessible bolted electrical connections by calibrated torque -wrench method in accordance with manufacturer's published data or ANSI/NETA ATS. Bolt torque levels shall be in accordance with manufacturer's published data. In the absence of manufacturer's published data, use ANSI/NETA ATS. 3.04 INSTALLATION - EQUIPMENT GROUNDING CONDUCTORS A. Equipment Grounding Conductor: Install separate, insulated conductor within each feeder and branch circuit raceway. Terminate each end on suitable lug, bus, or bushing. B. In panelboards or switchboards, identify each ground conductor by circuit number. 3.05 FIELD QUALITY CONTROL A. Visual and Mechanical Inspection: 1. Verify ground system is in compliance with Drawings, Specifications, and NFPA 70 National Electrical Code Article 250. 2. Inspect physical and mechanical condition. Grounding system electrical and mechanical connections shall be free of corrosion. END OF SECTION 260526-2 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES SECTION 26 05 30 RACEWAY AND BOXES PART 1 - GENERAL 1.01 SECTION INCLUDES A. The Work of this Section includes the following items. 1. Conduit. 2. Tubing. 3. Wireways. 4. Outlet boxes. 5. Pull and junction boxes. 1.02 REFERENCES A. ANSI C80.1 (American National Standards Institute) — Rigid Steel Conduit, Zinc Coated. B. ANSI C80.3 (American National Standards Institute) — Electrical Metallic Tubing, Zinc Coated. C. ANSI C80.5 (American National Standards Institute) — Rigid Aluminum Conduit. D. ANSI C80.6 (American National Standards Institute) — Electrical Intermediate Metal Conduit (EIMC). E. NEMA FB 1 (National Electrical Manufacturers Association) — Fittings, Cast Metal Boxes, and Conduit Bodies for Conduit and Cable Assemblies. F. NEMA OS 1 (National Electrical Manufacturers Association) — Sheet -steel Outlet Boxes, Device Boxes, Covers, and Box Supports. G. NEMA WD 1 (National Electrical Protection Association) — General Purpose Wiring Devices. H. NEMA WD 6 (National Electrical Protection Association) — Wiring Devices — Dimensional Requirements. NEMA 250 (National Electrical Manufacturers Association) — Enclosures for Electrical Equipment (1000 Volts Maximum). J. UL 1 (Underwriters Laboratories) — Flexible Metal Conduit. K. UL 6 (Underwriters Laboratories) — Electrical Rigid Metal Conduit — Steel. L. UL 6A (Underwriters Laboratories) — Electrical Rigid Metal Conduit — Aluminum and Stainless Steel. M. UL 360 (Underwriters Laboratories) — Liquid -Tight Flexible Steel Conduit. N. UL 514A (Underwriters Laboratories) — Metallic Outlet Boxes. O. UL 514E (Underwriters Laboratories) — Conduit, Tubing and Cable Fittings. 260530-1 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES P. UL 797 (Underwriters Laboratories) — Electrical Metallic Tubing — Steel. Q. UL 870 (Underwriters Laboratories) — Wireways, Auxiliary Gutters and Associated Fittings. R. UL 1242 (Underwriters Laboratories) — Electrical Intermediate Metal Conduit — Steel. 1.03 SYSTEM DESCRIPTION A. Raceway and boxes located as indicated on Drawings, and at other locations required for splices, taps, wire pulling, equipment connections, and compliance with regulatory requirements. Raceway and boxes are shown in approximate locations unless dimensioned. Provide raceway to complete wiring system. 1.04 SUBMITTALS A. Product Data: 1. Flexible metal conduit. 2. Liquidtight flexible metal conduit. 3. Raceway fittings. 4. Conduit bodies. 5. Wireway. 6. Pull and junction boxes. 1.05 CLOSEOUT SUBMITTALS A. Project Record Documents: 1. Record actual routing of conduits of 1-1/2 inch trade size and larger. 2. Record actual locations and mounting heights of outlet, pull, and junction boxes. 3. Record actual locations, sizes, and configurations of equipment connections. 1.06 DELIVERY, STORAGE, AND HANDLING A. Protect conduit from corrosion and entrance of debris by storing above grade. Provide appropriate covering. B. Protect PVC conduit from sunlight. 1.07 COORDINATION A. Coordinate installation of outlet boxes for equipment connected under Section 26 05 30. B. Coordinate mounting heights, orientation and locations of outlets mounted above counters, benches, and backsplashes. C. Obtain and review shop drawings, product data, manufacturer's wiring diagrams, and manufacturer's instructions for equipment furnished under other Sections. D. Determine connection locations and requirements. E. Sequence rough -in of electrical connections to coordinate with installation of equipment. F. Sequence electrical connections to coordinate with start-up of equipment. 260530-2 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES G. Coordinate with Division 03 prior to installing conduit in concrete slabs and other structural members. Obtain written permission from the Structural Engineer prior to installing conduit. PART 2- PRODUCTS 2.01 RIGID METAL CONDUIT (RMC) A. Rigid Steel Conduit: ANSI C80.1 and UL 6. B. Rigid Aluminum Conduit: ANSI C80.5 and UL 6A. C. Intermediate Metal Conduit (IMC): ANSI C80.6 and UL 1242, zinc -coated steel. D. Fittings and Conduit Bodies: NEMA FB 1; threaded, all steel fittings. 2.02 FLEXIBLE METAL CONDUIT A. Product Description: UL 1, interlocked steel construction. B. Fittings: NEMA FB 1. 2.03 LIQUIDTIGHT FLEXIBLE METAL CONDUIT A. Product Description: UL 360, interlocked steel or aluminum construction with PVC jacket. B. Fittings: NEMA FB 1 and UL 514B, cadmium- or zinc -plated. 2.04 ELECTRICAL METALLIC TUBING (EMT) A. Product Description: ANSI C80.3 and UL 797; galvanized tubing. B. Fittings and Conduit Bodies: NEMA FB 1. 1. Steel. 2. Compression type. 3. Insulated throat. 4. Listed as rainproof. 2.05 METALLIC CONDUIT BODIES A. Product Description: UL 514B. 2.06 WIREWAY A. Manufacturers: 1. Hoffman. 2. Square D. B. Product Description: UL 870; Oiltight and dusttight type wireway. 1. NEMA 250, Type 12. 2. Knockouts: Contractor to determine. 3. Size: Contractor to determine. 4. Cover: Hinged cover. 5. Finish: Rust inhibiting primer coating with gray enamel finish. 260530-3 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 2.07 OUTLET BOXES A. Sheet Metal Outlet Boxes: NEMA OS 1, galvanized steel. 1. Luminaire and Equipment Supporting Boxes: Rated for weight of equipment supported; furnish 1/2 inch male fixture studs where required. 2. Concrete Ceiling Boxes: Concrete type. B. Cast Boxes: NEMA FB 1, Type FD, cast ferrous alloy. Furnish gasketed cover by box manufacturer. Furnish threaded hubs. C. Wall Plates for Unfinished Areas: Furnish gasketed cover. 2.08 VOICE AND DATA OUTLET BOXES A. Minimum Size: 4-11/16 inches square, 2-1/8 inches deep. Depth does not include plaster or extension rings. B. Sheet Metal Outlet Boxes: NEMA OS 1, galvanized steel. C. Note to Specifier: Consult box manufacturer for limitations of aluminum fittings with steel raceway. Use only aluminum fittings with aluminum conduit. Specify accordingly. Specify threaded hubs to eliminate drilling and tapping in field. D. Cast Boxes: NEMA FB 1, Type FD, cast ferrous alloy. Furnish gasketed cover by box manufacturer. Furnish threaded hubs. 2.09 PULL AND JUNCTION BOXES A. Sheet Metal Boxes: NEMA OS 1, galvanized steel. B. Hinged Enclosures: 1. Provide continuous steel hinges on boxes 24 inches tall by 24 inches wide. 2. Provide continuous steel hinges on boxes having covers larger than 576 square inches in surface area. 3. Provide continuous steel hinges on boxes having covers weighing more than 10 pounds. C. Captive Cover Hardware: Provide captive hardware for boxes which to be installed with the box opening facing downward or where dropping the hardware have the potential to present a safety or equipment hazard. D. Surface Mounted Cast Metal Box: NEMA 250, Type 4; flat -flanged, surface mounted junction box. 1. Material: 304 stainless steel. 2. Cover: Furnish with ground flange, neoprene gasket, and stainless steel cover screws. E. Color for Emergency System Junction and Device Boxes: Inside and outside of boxes shall be substantially orange in accordance with WAC 296-46B-700. PART 3 - EXECUTION 3.01 EXAMINATION A. Verify equipment is ready for electrical connection, for wiring, and to be energized. 260530-4 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES B. Verify outlet locations and routing and termination locations of raceway prior to rough -in. 3.02 EXISTING WORK A. Disconnect and remove abandoned system components below and above accessible ceiling finishes. B. Cut abandoned raceways to sufficient depth behind wall and floor surfaces to allow patching and finishing to be flush with wall or floor surfaces. Install blank cover for remaining abandoned boxes. C. Remove concealed abandoned raceway to its source. D. Disconnect abandoned outlets and remove devices. Remove abandoned outlets when raceway is abandoned and removed. Install blank cover for abandoned outlets not removed. E. Remove exposed abandoned equipment wiring connections, including abandoned connections above accessible ceiling finishes. F. Disconnect abandoned utilization equipment and remove wiring connections. Remove abandoned components when connected raceway is abandoned and removed. Install blank cover for abandoned boxes and enclosures not removed. G. Maintain access to existing boxes and other installations remaining active and requiring access. Modify installation or provide access panel. Mark and protect all raceway not designated for modification or demolition. Replace any raceway not designated for modification or demolition that becomes damaged during the project. H. Extend existing raceway and box installations using materials and methods as specified. I. Clean and repair existing raceway and boxes to remain or to be reinstalled. 3.03 INSTALLATION A. Install raceway and boxes in accordance with NECA "Standard of Installation." B. Equipment Connections: 1. Make conduit connections to motors, transformers and equipment using flexible conduit. Use liquidtight flexible conduit with watertight connectors in damp or wet locations. Install flexible conduit with enough length to provide at least a ninety degree bend in the flexible conduit. 2. Install interconnecting conduit and wiring between devices and equipment to complete equipment wiring requirements. C. Penetrate firewalls and fire -rated floors with rigid galvanized steel conduit. Extend a minimum of six inches beyond the firewall. Provide firestopping. Ground and bond raceway and boxes. D. Fasten raceway and box supports to structure and finishes. E. Identify raceway and boxes. F. Arrange raceway and boxes to maintain headroom and present neat appearance. 260530-5 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 3.04 INSTALLATION — RACEWAY A. Minimum Size: Install raceway with the following minimum sizes unless otherwise shown on the Drawings. 1. Homeruns: 3/4 inch trade size diameter. 2. Single Outlet Drops: 1/2 inch trade size diameter. 3. Communication Drops: 1-1/4 inches. B. Raceway Selection and Location Criteria: 1. Raceways in Slab: Horizontally run raceways are not permitted. For the purpose of this paragraph, horizontally run raceway shall mean any raceway that is not run perpendicular to the slab's horizontal surface. 2. Slab Penetrations: Provide core -drilled slab penetrations. Penetrations shall be vertical and perpendicular to the slab throughout the thickness of the slab. Penetrations shall be uniform in diameter. 3. Outdoor Locations, Above Grade: Provide rigid steel conduit. Provide cast metal outlet, pull, and junction boxes. 4. Wet and Damp Locations Above Grade: Provide rigid steel conduit. Provide cast metal or nonmetallic outlet, junction, and pull boxes. Provide flush mounting outlet box in finished areas. 5. Conduit in Exterior Walls: Provide rigid steel or aluminum conduit. 6. Exposed Dry Locations without Vehicular Traffic or Equipment Movement: Provide electrical metallic tubing except where other raceway types are shown on the Drawings. 7. Exposed Dry Locations without Vehicular Traffic or Equipment Movement: Provide electrical metallic tubing except where other raceway types are shown on the Drawings. C. Install raceway parallel and perpendicular to walls, floors, and ceilings. D. Raceway routing is shown in approximate locations unless dimensioned. E. Arrange raceway supports to prevent misalignment during raceway and wiring installation. F. Provide seismic supports in accordance with Section 26 05 00. G. Support raceway using coated steel or malleable lay -in adjustable hangers, clevis hangers, and split hangers. H. Do not support raceway with wire or perforated pipe straps for permanent installations. Remove wire and perforated pipe straps prior to inspection when they are used for temporary supports. I. Group related raceway; support using conduit rack attached to structure. Construct rack using steel channel; provide space on each for 25 percent additional raceways. J. Do not attach raceway to ceiling support wires or other piping systems. K. Route conduit in and under slab from point-to-point. Provide RMC elbows for all bends. Provide RMC for all concrete penetrations. L. Maintain clearance between raceway and piping for maintenance purposes. 260530-6 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES M. Maintain 12 inch clearance between raceway and surfaces with temperatures exceeding 104 degrees F. N. Cut conduit square using saw or pipecutter; de -burr cut ends. 0. Bring conduit to shoulder of fittings; fasten securely. P. Join nonmetallic conduit using cement as recommended by manufacturer. Wipe nonmetallic conduit dry and clean before joining. Apply full even coat of cement to entire area inserted in fitting. Allow joint to cure for minimum 20 minutes. Q. Install conduit hubs to fasten conduit to cast boxes. R. Install no more than equivalent of three 90 degree bends between conduit bodies and boxes. Install conduit bodies to make sharp changes in direction, as around beams. Use hydraulic one-shot bender to fabricate or install factory elbows for bends in metal conduit 2 inch trade size and larger. S. Avoid moisture traps; install junction box with drain fitting at low points in conduit system. T. Install deflection fittings between buildings, equipment, and other structures as shown on Drawings and required by the Authorities Having Jurisdiction. U. Install expansion fittings between buildings, equipment, and other structures as shown on Drawings and required by the Authorities Having Jurisdiction. V. Install expansion fittings for thermal expansion of raceways and deflection where raceway crosses seismic, control and expansion joints. W. Provide pull string sized in accordance with Section 26 05 00 in each empty conduit except sleeves and nipples. Furnish informational submittals showing pull calculations used to size pull strings. Install caps to protect installed conduit against entrance of dirt and moisture. X. Close ends and unused openings in wireway. Y. Provide insulated throat box connectors where raceway terminates at sheet steel in boxes, panels, switchboards, and equipment. Connector material shall match raceway. Z. Provide screw terminal type grounding bushings for metal conduits on circuits greater than 600 VAC. 3.05 INSTALLATION — BOXES A. Install boxes used for equipment and luminaire attachment directly to structure or to supports provided under Section 26 05 00. Do not use supports for non -electrical equipment or systems for electrical system attachment. B. Install wall mounted boxes at elevations to accommodate mounting heights specified in Section 26 05 30 for outlet device. Use 4 inch square boxes for receptacles. C. Adjust box location up to 10 feet prior to rough -in to accommodate intended purpose. D. Orient boxes to accommodate wiring device orientation. 260530-7 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES E. Install pull boxes and junction boxes above accessible ceilings and in unfinished areas only. F. Inaccessible Ceiling Areas: Install outlet and junction boxes no more than 6 inches from ceiling access panel or from removable recessed luminaire. G. Locate flush mounting box in masonry wall to require cutting of masonry unit corner only. Coordinate masonry cutting to achieve neat opening. H. Do not install flush mounting box back-to-back in walls; install with minimum 6 inches separation in non -acoustical rated walls. For acoustical rated walls, comply with Article "ACOUSTICAL REQUIREMENTS" in this Section. I. Secure flush mounting box to interior wall and partition studs. Accurately position to allow for surface finish thickness. J. Install stamped steel bridges to fasten flush mounting outlet box between studs. K. Install flush mounting box without damaging wall insulation or reducing its effectiveness. L. Install adjustable steel channel fasteners for hung ceiling outlet box. M. Do not fasten boxes to ceiling support wires or other piping systems. N. Support boxes independently of conduit. O. Install gang box where more than one device is mounted together. Do not use sectional box. P. Install gang box with plaster ring for single device outlets. Q. Install a minimum of one 1 inch conduit for every four data and voice outlets. 3.06 ACOUSTICAL REQUIREMENTS A. Use flexible electrical conduit to isolate electrical connections between acoustical walls and other walls and structures. B. Do not use conduit clamps or hangers between the flex conduit and acoustical walls. C. Flexible conduit shall be a minimum of 3 feet long when used for acoustical isolation. D. Do not place electrical boxes back-to-back within one stud cavity. E. Offset back-to-back boxes a minimum distance of 18 inches for single stud walls and a minimum offset of 36 inches for double stud walls, with at least one stud between the boxes. F. Fill the cavity around boxes with fiberglass insulation. G. Seal between boxes and wallboard with acoustical sealant. H. Seal openings in boxes and backboxes with acoustical sealant. 260530-8 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES r I. For double stud walls, run wiring on the side of the wall that it serves. Locate junction boxes to combine wiring outside of double walls. J. Notify the Boeing Construction Manager of conflicts that result in unavoidable connection between the two wall frames of a double wall. Notification shall be prior to wall closure. 3.07 ADJUSTING A. Adjust flush -mounting outlets to make front flush with finished wall material. B. Install knockout closures in unused openings in boxes. C. Cooperate with utilization equipment installers and field service personnel during checkout and starting of equipment to allow testing and balancing and other startup operations. Provide personnel to operate electrical system and checkout wiring connection components and configurations. 3.08 CLEANING A. Clean interior of boxes to remove dust, debris, and other material. B. Clean exposed surfaces and restore finish. END OF SECTION 260530-9 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES SECTION 26 28 13 FUSES PART 1 - GENERAL 1.01 SECTION INCLUDES A. The Work of this Section includes the following. 1. Fuses. 1.02 REFERENCES A. ANSI/NETA ATS (InterNational Electrical Testing Association) — Standard for Acceptance Testing Specifications for Electrical Power Distribution Equipment and Systems. B. ANSI/NETA ETT (InterNational Electrical Testing Association) — Standard for Certification of Electrical Testing Technicians. C. NEMA FU 1 (National Electrical Manufacturers Association) — Low Voltage Cartridge Fuses. 1.03 FUSE PERFORMANCE REQUIREMENTS A. Main Service Switches Larger than 600 amperes: Class L (time delay). B. Main Service Switches: Class RK1 (dual -element, time -delay). C. Power Load Feeder Switches Larger than 600 amperes: Class L (time delay). D. Power Load Feeder Switches: Class RK1 (dual -element, time -delay). E. Motor Load Feeder Switches: Class RK5. F. Lighting Load Feeder Switches Larger than 600 amperes: Class L fast -acting. G. Lighting Load Feeder Switches: Class RK1 (non -time -delay). H. Other Feeder Switches Larger than 600 amperes: Class L time delay. I. Other Feeder Switches: Class RK1 (time -delay). J. General Purpose Branch Circuits: Class RK1 (non -time -delay). K. Motor Branch Circuits: Class RK5. L. Lighting Branch Circuits: Class G. 1.04 SUBMITTALS A. Product Data: 1. Fuse classification. 2. Voltage rating. 3. Current rating. 4. Interrupting rating. 262813-1 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 5. Current limiting and let -through characteristics for fuse classes and sizes used. 6. Time -current curves for fuse classes and sizes used. 7. Dimensions. 1.05 CLOSEOUT SUBMITTALS A. Project Record Documents: Record actual sizes, ratings, and locations of fuses. 1.06 QUALIFICATIONS A. Manufacturer: Company specializing in manufacturing products specified in this Section with minimum three years documented experience. 1.07 MAINTENANCE MATERIALS A. Furnish two fuse pullers. 1.08 EXTRA MATERIALS A. Furnish ten percent of the quantity of each type, size and rating of fuse installed, but not less than three spare fuses. PART 2 - PRODUCTS 2.01 FUSES A. Manufacturers: 1. Bussmann. 2. Mersen (formerly Ferraz Shawmut). 3. Littlefuse. 4. Substitutions: Approved equal. B. C. D. E. F. G. H. Dimensions and Performance: NEMA FU 1, Class as specified or as indicated on Drawings. Voltage: Rating suitable for circuit phase -to -phase voltage. Class Rk1 (Time Delay) Fuses: 1. Voltage: Rating suitable for circuit Class Rk1 (Non -Time -Delay) Fuses: 1. Voltage: Rating suitable for circuit Class Rk5 Fuses: 1. Voltage: Rating suitable for circuit Class J (Time Delay) Fuses: 1. Voltage: Rating suitable for circuit Class J (Non -Time -Delay) Fuses: 1. Voltage: Rating suitable for circuit Class T Fuses: 1. Voltage: Rating suitable for circuit phase -to -phase voltage. phase -to -phase voltage. phase -to -phase voltage. phase -to -phase voltage. phase -to -phase voltage. phase -to -phase voltage. 262813-2 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES J. Class L (Fast -Acting) Fuses: 1. Voltage: Rating suitable for circuit K. Class L (Time Delay) Fuses: 1. Voltage: Rating suitable for circuit L. Class G Fuses: 1. Voltage: Rating suitable for circuit M. Class CC (Time Delay) Fuses: 1. Voltage: Rating suitable for circuit PART 3 - EXECUTION 3.01 INSTALLATION A. Install fuse with label oriented so manufacturer, type, and size are easily read. END OF SECTION phase -to -phase voltage. phase -to -phase voltage. phase -to -phase voltage. phase -to -phase voltage. 262813-3 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES SECTION 26 28 15 SAFETY SWITCHES PART 1 - GENERAL 1.01 SECTION INCLUDES A. The Work of this Section Includes: 1. Fused and non -fused safety switches. 1.02 REFERENCES A. ANSI/NETA ATS (InterNational Electrical Testing Association) — Standard for Acceptance Testing Specifications for Electrical Power Distribution Equipment and Systems. B. ANSI/NETA ETT (InterNational Electrical Testing Association) — Standard for Certification of Electrical Testing Technicians. C. NECA (National Electrical Contractors Association) — Standard of Installation. D. NEMA FU1 (National Electrical Contractors Association) — Low Voltage Cartridge Fuses. E. NEMA KS 1 (National Electrical Contractors Association) — Enclosed and Miscellaneous Distribution Equipment Switches (600 Volts Maximum). F. NEMA 250 (National Electrical Contractors Association) — Enclosures for Electrical Equipment (1000 Volts Maximum). G. UL 98 (Underwriters Laboratory) — Enclosed and Dead -Front Switches. 1.03 SUBMITTALS A. Product Data: 1. Short circuit rating. 2. Voltage. 3. Continuous current. 4. Horsepower rating. 5. Cable terminal sizes. B. Shop Drawings: 1. Dimensioned outline drawing. 2. Conduit entry/exit locations. 1.04 CLOSEOUT SUBMITTALS A. Field Quality Control Test Reports: Submit test reports in accordance with Section 26 00 10. 1 Test procedures used. 2. Test results that comply with requirements. 3. Results of failed tests and corrective action taken to achieve test results that comply with requirements. B. Operation and Maintenance Data: 1. Product Data and Shop Drawings per above. 262815-1 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 2. Spare parts listing. 3. Source and current prices of replacement parts and supplies. 4. Recommended maintenance procedures and intervals. C. Project Record Documents: Record actual locations of safety switches and ratings of installed fuses. PART 2 - PRODUCTS 2.01 SWITCHES A. Manufacturers: 1. Square D. 2. General Electric. 3. Siemens. 4. Eaton. 5. Substitutions: Not Permitted. B. Product Description: NEMA KS 1, Type HD, enclosed load interrupter knife switch with externally operable handle interlocked to prevent opening front cover with switch in ON position. Provide defeat for interlock. Handle lockable in OFF position. C. Fuse Clips: Designed to accommodate NEMA FU1, Class Rfuses. D. Enclosure: 1. Interior Dry Locations: NEMA 250 Type 1, fabricated from steel finished with manufacturer's standard gray enamel. 2. Interior Wet or Damp Locations: NEMA 250, Type 4X fabricated from stainless steel. 3. Exterior Locations: NEMA 250, Type 4X fabricated from stainless steel. E. Furnish switches with entirely copper current carrying parts. F. Fuses: Provide fuse holders and fuses where switches are shown as fused. G. Switch Rating: Horsepower rated for AC or DC as shown on Drawings. H. Short Circuit Current Rating: UL listed for 200,000 rms symmetrical amperes when used with or protected by Class R fuses (30-600 ampere switches employing appropriate fuse rejection schemes). 200,000 rms symmetrical amperes when used with or protected by Class L fuses (800-1200 ampere). PART 3 - EXECUTION 3.01 EXISTING WORK A. Disconnect and remove abandoned safety switches. B. Maintain access to existing safety switches and other installations remaining active and requiring access. Modify installation or provide access panel. C. Clean and repair existing safety switches to remain or to be reinstalled. 262815-2 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 3.02 INSTALLATION A. Install in accordance with NECA "Standard of Installation." B. Install safety switches plumb, square and level. Provide supports in accordance with Section 26 05 00. C. Height: 78 inches, maximum, to operating handle. D. Install engraved plastic nameplates in accordance with Section 26 05 00. E. Apply adhesive tag on inside door of each fused switch indicating NEMA fuse class and size installed. 3.03 FIELD QUALITY CONTROL A. Perform the following inspections and tests in accordance with NETA ATS. 1. Visually inspect switch for physical damage. 2. Inspect paint condition on painted switches. Apply touch-up paint matching switch manufacturer's specification. 3. Perform insulation resistance tests phase to phase and phase to ground with switch in the closed position and power conductors disconnected. Perform insulation resistance tests on each pole from line terminals to load terminals with the switch in the open position and power conductors disconnected. Test voltage shall be 1000 VDC. Test durations shall be 1 minute. 4. Perform continuity tests across each pole with the switch in the closed position. Perform test using digital low -resistance ohmmeter capable of reading resistances as low as 1 micro -ohm. END OF SECTION 262815-3 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES SECTION 26 33 54 SMALL STATIC UN INTERRUPTIBLE POWER SUPPLIES PART 1 - GENERAL 1.01 SECTION INCLUDES A. The Work of this Section includes static uninterruptible power supply. 1.02 REFERENCES A. ANSI/NETA ATS (InterNational Electrical Testing Association) — Standard for Acceptance Testing Specifications for Electrical Power Distribution Equipment and Systems. B. ANSI/NETA ETT (InterNational Electrical Testing Association) — Standard for Certification of Electrical Testing Technicians. C. IEEE Std. 485 (Institute of Electrical and Electronics Engineers) — Recommended Practice for Sizing Lead -Acid Batteries for Stationary Applications. D. IEEE Std. 1184 (Institute of Electrical and Electronics Engineers) — Guide for Batteries for Uninterruptible Power Supply Systems. E. NEMA PE 1 (National Electrical Manufacturers Association) — Uninterruptible Power Systems (UPS) — Specification and Performance Verification. F. UL 1778 (Underwriters Laboratories) — Uninterruptible Power Supply Equipment. 1.03 SUBMITTALS A. Product Data: 1. Dimensions. 2. Features. 3. Performance. 4. Electrical characteristics. 5. Ratings. 6. Accessories. B. Shop Drawings: 1. Dimensioned outline drawings of UPS and battery rack(s). 2. Battery type. 3. Lifting and support points. 4. Schematic drawings. 5. Wiring diagrams. 6. Metering. 7. Heat rejection. 8. Air flow requirements. 9. Installation Drawings Showing: a. Sizes of shipping splits. b. Weights. c. Lifting provisions. d. Moving provisions and instructions. e. Conduit entrance locations and requirements. 263354-1 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 1.04 CLOSEOUT SUBMITTALS A. Field Quality Control Test Reports: Submit test reports in accordance with Section 26 00 10. 1. Test procedures used. 2. Test results that comply with requirements. 3. Results of failed tests and corrective action taken to achieve test results that comply with requirements. B. Operation and Maintenance Data: 1 Product Data and Shop Drawings per above. 2. Spare Parts Data Listing: a. Source. b. Current prices of replacement parts and supplies. 3. Recommended operating procedures. 4. Recommended maintenance procedures and intervals. 5. Manufacturer's written instructions for testing and adjusting overcurrent protective devices. 1.05 COORDINATION A. Line Carrier Signal Interference Provisions: Contact Utility Company to verify line carrier frequencies of Utility -owned metering and relaying equipment. Coordinate variable speed drives, uninterruptible power supplies, and other signal generating equipment with utility system frequencies. Provide signal filtration equipment to prevent Contractor - provided signal producers from interfering with Utility -owned equipment and systems. 1.06 QUALIFICATIONS A. Manufacturer: Company specializing in manufacturing products specified in this Section with minimum three years documented experience. 1.07 DELIVERY, STORAGE, AND HANDLING A. Protect equipment from extreme temperature and humidity by storing in conditioned space. B. Protect equipment from dust and debris by wrapping unit in dust tight cover and storing away from construction activity. 1.08 WARRANTY A. Furnish five year manufacturer warranty. 1.09 MAINTENANCE SERVICE A. Furnish service and maintenance of uninterruptible power supply for one year from Date of Substantial Completion. PART 2- PRODUCTS 2.01 STATIC UNINTERRUPTIBLE POWER SUPPLY A. Manufacturers: 1. AEC. 263354-2 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 2. APC. 3. Best. 4. Liebert. B. Product Description: NEMA PE 1 and UL 1778. C. System Ratings and Operating Characteristics: 1. System Continuous Rating: As indicated on Drawings, 3 KVA, over entire battery voltage range at specified power factor. Maintain output voltage within specified limits at load from full load to no-load. 2. Battery Capacity: Capable of operating at full load for 15 minutes. 3. Voltage Rating: 120 volts, 1 phase. 4. Input Voltage Operating Range: Plus or minus 10 percent. 5. Input Frequency Operating Range: 60 Hz. plus or minus 3 Hz. 6. Input Current Limit: Adjustable to maximum of 125 percent required to operate at full load with battery bank on float charge. 7. UPS Power Factor Over Full Range of Loads and Input Voltages: 80 to 100 percent, lagging. 8. Input Current Harmonic Distortion: Maximum 5 percent rms total harmonic distortion (THD) and maximum 3 percent any single harmonic, from no load to full load. 9. Output Voltage Regulation: a. Plus or minus 5 percent for balanced load, full range of DC input and no load to full load variations. b. Plus or minus 5 percent for 50 percent unbalanced load, full range of DC input and no load to full load variations. c. Plus or minus 10 percent during maximum overload of system. 10. Output Voltage Adjustment: Plus or minus 5 percent. 11. Output Free Running Frequency: 60 Hz Plus or minus 0.5 percent. 12. Frequency Adjustment: Plus or minus 1.0 Hz. 13. Output Voltage Harmonic Distortion: Maximum 5 percent rms total harmonic distortion (THD) and maximum 3 percent any single harmonic, at rated frequency and voltage, from 10 percent load to full load and over battery voltage range, measured into linear load. 14. Voltage Transient Response for Application of 0 to 50 Percent, 50 to 100 Percent, 100 to 50 Percent, and 50 to 0 Percent Step Loads, and Transfer To and From Bypass Line: a. Plus 8, minus 10 percent for maximum of 8.3 milliseconds. b. Plus or minus 5 percent for maximum of 25 milliseconds. c. Plus or minus 3 percent for maximum of 50 milliseconds. 15. Recovery to steady state within 100 milliseconds after out -of -tolerance variation. 16. Overload Ratings: a. 150 percent for 10 seconds. b. 115 percent for 10 minutes. 17. Output Current Limit: 150 percent of rated output current. 18. Efficiency: 80 percent at full load, minimum. Measure efficiency of unit including battery and isolation transformer losses. D. Design: 1. Inverter Type: Step -wave design. 2. Rectifier/Charger Capacity: Sufficient to supply full load to inverter while recharging fully -discharged battery to 95 percent of full capacity in twelve hours or less; and within input current limits specified. 3. Furnish means for on-line testing of UPS, including test points to allow adjusting and servicing. Furnish means for testing static switch while load is bypassed to utility. 263354-3 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES 4. Cooling: Forced convection. E. Controls: 1. AC input fuse or circuit breaker. 2. "On" switch to initiate inverter operation. 3. "Off' switch to cause inverter to cease operation F. Indicators: 1. "Inverter on." 2. "Load connected to utility." 3. "Inverter output overload." G. Fabrication: 1. Equip air inlet with permanent type filters and pressurize cabinet, or use gaskets around door and panel openings to prevent entry of dirt. 2. Cabinet finish: Primed and painted inside and outside with suitable semi -gloss enamel. 2.02 BATTERY A. Storage Battery: IEEE Std. 1184 sealed gel -cell industrial battery, designed for auxiliary power service. B. Ampere -Hour Rating: Sized in accordance with the relevant parts of IEEE Std. 485 and IEEE Std. 1184. C. Battery Housing: Cabinet as a part of or attached to the rectifier -inverter housing. 2.03 SOURCE QUALITY CONTROL A. Furnish shop inspection and testing of components and completed UPS assembly. PART 3 - EXECUTION 3.01 INSTALLATION A. Install in accordance with NEMA PE 1. B. Tighten accessible connections and mechanical fasteners after placing controller. C. Install engraved plastic nameplates in accordance with Section 26 05 00. D. Neatly type label inside controller door identifying loads served. Place label in clear plastic holder. E. Ground and bond controller in accordance with Section 26 05 26. 3.02 FIELD QUALITY CONTROL A. Perform inspections and tests listed in ANSI/NETA ATS, Section 7.22. B. Verify specification performance criteria. C. Measure battery discharge and recharge times. 263354-4 BOEING DEVELOPMENTAL CENTER October 23, 2015 VACUUM PUMP UPGRADES D. Simulate fault in each system component and utility power. E. Operate unit at 77 degrees F for eight hours. F. Perform other tests as recommended by manufacturer. 3.03 MANUFACTURER'S FIELD SERVICES A. Prepare and start up UPS. 3.04 ADJUSTING A. Adjust output voltage to within 1 percent of nominal. B. Adjust output frequency to within 0.6 percent of nominal. 3.05 DEMONSTRATION AND TRAINING A. Furnish 4 hours of instruction each for two persons, to be conducted at project site with manufacturer's representative. 3.06 PROTECTION OF INSTALLED CONSTRUCTION A. Protect UPS equipment from construction activities and work of other trades. END OF SECTION 263354-5 City of Tukwila Department of Community Development 6/30/2016 JOHN S MURDOCH PO BOX 3707 M/C 46-88 SEATTLE, WA 98124 RE: Permit No. M15-0167 BOEING #9-101 - VACUUM PUMP UPGRADES 9725 E MARGINAL WAY S Dear Permit Holder: Allan Ekberg, Mayor Jack Pace, Director In reviewing our current records, the above noted permit has not received a final inspection by the City of Tukwila Building Division. Per the International Building Code, International Mechanical Code, Uniform Plumbing Code and/or the National Electric Code, every permit issued by the Building Division under the provisions of these codes shall expire by limitation and become null and void if the building or work authorized by such permit has not begun within 180 days from the issuance date of such permit, or if the building or work authorized by such permit is suspended or abandoned at any time after the work has begun for a period of 180 days. Your permit will expire on 8/15/2016. Based on the above, you are hereby advised to: 1) Call the City of Tukwila Inspection Request Line at 206-438-9350 to schedule for the next or final inspection. Each inspection creates a new 180 day period, provided the inspection shows progress. -or- 2) Submit a written request for permit extension to the Permit Center at least seven(7) days before it is due to expire. Address your•extension request to the Building Official and state your reason(s) for the need to extend your permit. The Building Code does allow the Building Official to approve one extension of up to 180 days. If it is determined that your extension request is granted, you will be notified by mail. In the event you do not call for an inspection and/or receive an extension prior to 8/15/2016, your permit will become null and void and any further work on the project will require a new permit and associated fees. Thank you for your cooperation in this matter. Sincerely, t)jt " Bill Rambo Permit Technician File No: M15-0167 6300 Southcenter Boulevard Suite #100 • Tukwila, Washington 98188 • Phone 206-431-3670 • Fax 206-431-3665 PERMIT COORD COPY PLAN REVIEW/ROUTING SLIP PERMIT NUMBER: M15-0167 DATE: 12/16/15 PROJECT NAME: BOEING #9-101 - VACUUM PUMP UPGRADES SITE ADDRESS: 9725 E MARGINAL WAY S X Original Plan Submittal Response to Correction Letter # Revision # before Permit Issued Revision # after Permit Issued DEPARTMENTS: lq/ PON 0 ifliA Building Division ti Public Works n kM NDc I41111 Fire Prevention Structural Planning Division Permit Coordinator n el PRELIMINARY REVIEW: Not Applicable (no approval/review required) DATE: 12/17/15 Structural Review Required REVIEWER'S INITIALS: DATE: APPROVALS OR CORRECTIONS: Approved Corrections Required (corrections entered in Reviews) DUE DATE: 01/14/16 Approved with Conditions ❑ Denied (ie: Zoning Issues) Notation: REVIEWER'S INITIALS: DATE: Permit Center Use Only CORRECTION LETTER MAILED: Departments issued corrections: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials: 12/18/2013 DESIGN AIR LTD Home lspafiol Contact Page 1 of 2 Safety & Health Claims & Insurance Washington State Department of Labor & Industries A-Z Index Help My Secure L1k1 Workplace Rights Trades & Licensing DESIGN AIR LTD Owner or tradesperson Principals HAGEN, RONALD A, PRESIDENT MATZ, RICHARD K, VICE PRESIDENT PORTO, MARK M, SECRETARY Doing business as DESIGN AIR LTD WA UBI No. 600 314 241 3051 EAST VALLEY RD RENTON, WA 98057 253-854-2770 KING County Business type Corporation Governing persons INC • EMCOR GROUP KENNETH STRICKLER; License Verify the contractor's active registration / license / certification (depending on trade) and any past violations. Construction Contractor Active. Meets current requirements. License specialties GENERAL License no. DESIGL*212DG Effective — expiration 03/07/1979— 03/07/2016 Bond TRAVELERS CAS & SURETY CO Bond account no. 103742548 $12,000.00 Received by L&I Effective date 02/28/2002 03/07/2002 Expiration date Until Canceled Insurance ............................. Continental Cas Co $2,000,000.00 Policy no. GL4025756461 Received by L&I Effective date 09/30/2015 10/01/2015 Expiration date 10/01/2016 Insurance history Savings No savings accounts during the previous 6 year period. https://secure.lni.wa.gov/verify/Detail.aspx?UBI=600314241&LIC=DESIGL*212DG&SAW= 02/01/2016 SYM VIC\ITY' V A 0 99 0 71 99 EAST MARGINAL WAY CORPORATE PARK FROM SEATTLE—TACOMA AIRPORT PROJECT SITE FROM DOWNTOWN SEATTLE 900 rri t EXIT 158 a FROM KENT & AUBURN EXR 157 900 REVISION VACUUM PUMP... UPGRADES . •-W33831.13 •WH THH 10.23.15 VIC Y A D BUILDING ADDRESS: 9725 EAST NARGINAL WAY SOUTH TUKWILA, WASHINGTON PROJECT SITE 13-01 ICJ -CT S v VARY DESCRIPTION OF WORK: CONTRACTOR: OWNER: VACUUM PUMP UPGRADES ADDRESS AND TELEPHONE NUMBER (WHEN KNOWN) BOEING DEVELOPMENTAL CENTER 9725 EAST MARGINAL WAY SOUTH TUKWILA, WASHINGTON 98108 ACCEPTABILITY THIS DESIGN AND/OR SPECIFICATION IS APPROVED APPROVED BY DEPT. DATE DRAWN C. PECK I\DIX OF DRAW\CS INCLUDED IN SET SHEET NO. DRAWING TITLE REV DATE 0 DRAWING N0. GENERAL • 9-101—GO GO COVER SHEET — 10.23.15 MECHANICAL BLDG 9-101 0 9-101—M1E M1E MECHANICAL EQUIPMENT SCHEDULE EAST ANNEX F 10.23.15 0 9-101—M1H M1H MECHANICAL EQUIPMENT SCHEDULE EAST ANNEX N 10.23.15 0 9-101—M1M94R M1M94R MEZZANINE SUPPORT AREA PIPING PLAN E 10.23.15 0 9-10i—M1M144R M1M144R MEZZANINE SUPPORT AREA PLUMBING PLAN B 10.23.15 • 9-101—M1M500R M1M500R SECTIONS &DETAILS D 10.23.15 0 9-101—M1M501R M1M501R MEZZANINE PIPING PLAN, SECTIONS & DETAILS A 10.23.15 0 9-101—M1M44 M1M44 MEZZANINE AREA PLAN A 10.23.15 0 9-101—M1M94 M1M94 MEZZANINE SUPPORT AREA: PIPING PLAN. E 10.23.15 0 9-101—M1M500 M1M500 SECTIONS AND DETAILS D 10.23.15 0 9-101—M1M501 M1M501 MEZZANINE PIPING PLAN, SECTIONS & DETAILS A 10.23.15 • 9-101—CWM136 CWM136 CATWALK PLUMBING PLAN B 10.23.15 0 9-101—CWM141 CWM141 CATWALK PLUMBING PLAN B 10.23.15 0 9-101—RFM44 RFM44 HVAC ROOF PLAN A 10.23.15 0 9-101—RFM94 RFM94 PIPING ROOF PLAN C 10.23.15 • 9-101-1300 1300 CONTROL DIAGRAM AND EMCS POINT MATRIX — 10.23.15 BLDG 3—t02 0 9-102—M1A WA EQUIPMENT LIST SCHEDULE B 10.23.15 • 9-102-2M210R 2M21OR, PROCESS PIPING _PLAN B 10.23.15 • 9-102-2M210 2M210 PROCESS PIPING PLAN B 10.23.15 • 9-102-RFM10 RFM10 ROOF PLAN. A 10.23.15 • 9-102-M503 M503 SECTIONS B 10:23.15 • 9-102-M512 M512 ENLARGED PROCESS PIPING PLAN — 10.23.15 BLDG 9—t03 A 9-103-1M140 1M110 PIPING PLAN C 10.23.15 0 9-103—M501 M501 SECTIONS AND DETAILS - D 10.23.15 . REVISIONS No changes hr.) rm=.;de to the scope . of work witho .: prior approvol Of Tu',F�.�ila Building Division. N AT7..: -� ,.�r . will require a t�^:�r pen i ;� ��" �� r• . z`hmitt ,:may f2. DATE 08.11.15 CHECKED G. BRUCE 08.11.15 �,�n n y . ::,„ . r.'i' .m ,. 5 is `7 ::,. 't `' t i sr FOR: 0 Mechanical Electrical - Plumbing Gas Piping City of Tukwila Eltill....r!NG ntvisioN FILE COPY P 'rf r<t No, 14 ' o vei ':iv+iew D.00ro,4 is subject to errors a.nd "&f.-„prove ^` t;t,ri:i{r�ii (I t t;t.t :ltrrleiri 5 d!1 9.t (k.)?. author!}, t � violation of c r ; ftdo'pto'+ ::'trltlrl or ordinanco.r •.;�.�. ,�`i of approved Hold Copy and co iticns i aciv iowiod jed: Date: -1 City of Tui<wila. BUILDING DIVISION ISSUED FOR CONSTRUCTION OCTOBER 23, 2015 SUBTITLE COVER SHEET ! S 1s 20 6 avvE1 FOI ,ODE COMPLIANCE APPROVED JAN 0 4 2016 City of Tukwila BUILDING DIVISION! RECEIVED CITY OF TUKWILA DEC 16 2015 PERMIT CENTER CURRENT REVISION SYMBOL W3383113 DATE 3009;212th Ave. NE, Suite ioo ;Bellevue WA 98004 423.628.600o rwoadharbinger.cotn, 10.23.15 ENGINEER T. BRYANT CHECKED G. BRUCE APPROVED APPROVED 08.11.15 08.11.15 TITLE GENERAL VACUUM PUMP UPGRADES BUILDING 09-101 DEV. CENTER, WA SHEET GO JOB NO. W3383113 COMP NO. DWG NO. 09-101—GO DABENOJA: 09 /02 /15 14:57 S_PQT COOLIN( NIT (SCU) SCHEDULE. MARK' NUMBER. SCU=1 'EQUIPMENT ROOM CEILING MOUNTED CHILLED WATER COOLING NOMINAL CAPACITY TONS FAN FAN MOTOR COIL COOLING CAPACITY CHILLED WATER HUMIDIFIER DRIVE TYPE DIRECT CAPACITY (CFM)` .. 2150 ESP IN WG 0.5 HP 1 CAPACITY MBH ROOM TEMP (°F)- SENSIBLE 54.5 TOTAL 67.9 DB 75 WB.., 62.5 FLOW GPM 13.6 EWT °F. 45 LWT F 55 MAX PD®MAX FLOW FT H2O 20.32 CAP #/HR 10.0 KW 3.3 ELECTRIC REHEAT COIL 11.4KW AIR FILTER TYPE & DEPTH 4" THICK DISPOSABLE FIBERGLASS EFFICIENCY PER ASHRAE 52-76. 30% MAX FINAL SP WG .25 ELECTRICAL SERVICE VOLTS: 208 PHASE 3 HZ 60 MANUFACTURER &. MODEL NUMBER LEIBERT "MINI -MATE PLUS" MME092C OPERATING WEIGHT. (LBS.) 310 REMARKS SCU-2 EQUIPMENT ROOM "B" CEILING MOUNTED CHILLED WATER COOLING DIRECT 1250 0.3 1/2;: 22.4 28.5 75 62.5 5.7 45 55 7.62 4.5 1.5 4.8KW 4" THICK DISPOSABLE FIBERGLASS 30% .25 208 1 60 LEIBERT "MINI -MATE PLUS" MME040C 235 AIR DIFFUSER / REGISTER /GRILLE (:AIR SCHEDULE MARK NUMBER TYPE MATERIAL FINISH INLET/NECK SIZE, INCHES MAX. NOISE COEFFICIENT MAX. TP INCH WG. MAXIMUM SET CFM MANUFACTURER & MODEL NUMBER RG-1 RETURN. AIR GRILLE ALUMINUM BAKED -ON ENAMEL 22 .22 VARIES TITUS MODEL NO. (1/2" X 1/2" X 50F W/BORDER TYPE 3 1" EGGCRATE GRILLE) RG-2 RETURN :AIR GRILLE ALUMINUM:, BAKED -ON ENAMEL 24/12 11 .092 VARIES TITUS MODEL NO. (1/2" X 1/2" X 50F W/BORDER TYPE 3 1" EGGCRATE GRILLE) RG-3 RETURN AIR !GRILLE STEEL. BAKED -ON ENAMEL 10/10 16 .164 490 TITUS MODEL NO. (1/2" X 1/2" X 50F W/BORDER TYPE 3 1" EGGCRATE GRILLE) R DIFFUSER SUPPLY .AIR DIFFUSER SUPPLY'. AIR DIFFUSER. SUPPLY AIR DIFFUSER SUPPLY AIR GRILLE SUPPLY AIR GRILLE STEEL .STEEL STEEL.,. STEEL ,STEEL STEEL BAKED -ON ENAMEL BAKED -ON ENAMEL. BAKED -ON ENAMEL BAKED -ON ENAMEL. BAKED -ON ENAMEL BAKED -ON ENAMEL 12"0 8"0 10"0 6" 0 0 18 22 23 27 24 19 .043 .080 .076 .050 .085 .065 490 SEE PLAN 440 SEE PLAN 475 350 TITUS MODEL "TMSA" 24/24. FACE TITUS MODEL "TMSA" 24/24 FACE TITUS MODEL "TMSA" 24/24 FACE. TITUS MODEL "TMSA" 12/12 FACE TITUS MODEL NO. 300RL TITUS MODEL NO. 300RL • AIR CONDITIONING UNIT (AC MARK .,.... NUMBER LOCATION TYPE NOMINAL. CAPACITY TONS FAN FAN MOTOR COIL. COOLING CAPACITY CHILLED WATER DRIVE TYPE CAPACITY (CFM) ESP IN WG HP •VOLTAGE AC2A10A TELEPHONE ROOM SPOT COOLER. 2 DIRECT 880- 0.5 1/3 208/230 PHASE FLA 3.2 CAPACITY MBH RM TEMP 'F SENSIBLE 24.1 TOTAL 36.0 DB 80 WB 67 FLOW GPM 7.2 EWT 42 MAX PD ® MAX FLOW FT H2O 5.4 COIL CONN SIZE 1/2"MPT: REMARKS BSC MODEL CW2, EXIST UNIT TO BE REUSED EXHAUST FAN (EF) SCHEDULE NMER : LOCATION AREA SERVED . FAN (ROOM N0.): EXHAUST FAN REMARKS WHEEL SIZE(INCHES) CFM TOTAL STATIC PRESS. INCHES WG APPROX. RPM DR EE MO POR VOLTS/PH EFRDI1A ROOF, E12.2 _ 2ND FLOOR CLG" PLENUM 48 16100 0.25 310 V-BELT 2 480/3 GREENHECK GB-480-20, CENTRIFUGAL ROOF EXHAUSTER EFRDI5A ` ROOF, E16.2 ' 2ND FLOOR. CLG PLENUM 48 16100 0.25 310 V-BELT 2 480/3 GREENHECK GB-480-20, CENTRIFUGAL ROOF EXHAUSTER EFRE6A ROOF, E6 TOILET ROOM EXHAUS- 33 6690 0:70 430 V-BELT 2 480/3 GREENHECK GB-330-20, WITH REINFORCED WHEEL EFRE7A ` ROOF, E7 CONVERTER STATION: #3 26 3600 0.125 330 V-BELT 1/3 120/1 GREENHECK GB-260-3, WITH REINFORCED WHEEL EFRE11A ROOF, E12.2 ` 2ND FLOOR CLG PLENUM 48 16100 0.25 310 V-BELT 2 480/3 GREENHECK GB-480-20, CENTRIFUGAL ROOF EXHAUSTER EFRE12A ROOF, E.5,12.5 GONVtr M.IIO9 #S 30 3600 0.125 280 V-BELT 1/3 120/1 GREENHECK GB-300-3, CENTRIFUGAL ROOF EXHAUSTER EFRE12B ROOF, E.9,12.8 TOILET ROOMEXHAUS` 30 6400 0.85 600 V-BELT 1 1/2 480/3 GREENHECK GB-300-15, CENTRIFUGAL ROOF EXHAUSTER EFRE15A ROOF, E16.2 2ND FLOOR CLG ..PLENUM 48 : 16100 0.25 300 V-BELT 2 480/3 GREENHECK GB-480-20, CENTRIFUGAL ROOF EXHAUSTER EFRF5A ' ROOF, F5 5 2ND FLOOR CLG ..;PLENUM 42 11,375 0.25 325 V-BELT 1 1/2 480/3 GREENHECK GB-420-15, CENTRIFUGAL ROOF EXHAUSTER EFRF5B ROOF, F5.5 -2ND FLOOR CLG PLENUM 42 11,375 0.25 325 V-BELT 1 1/2 480/3 GREENHECK GB-420-15, CENTRIFUGAL ROOF EXHAUSTER EFRF5C ' ROOF, F5.5 2ND FLOOR CLG PLENUM 42 11,375 0.25 325 V-BELT 1 1/2 480/3 GREENHECK GB-420-15, CENTRIFUGAL ROOF EXHAUSTER EFRF5D , . ROOF F55 2ND FLOOR :CLG PLENUM 42 11,375 0.25 325 V-BELT 1 1/2 480/3 GREENHECK GB-420-15, CENTRIFUGAL ROOF EXHAUSTER EFRF6A ROOF, F6 2ND FLOOR - REPRO RCOM 16 2400 0.50 1065 V-BELT 1/2 120/1 GREENHECK GB-160-5, CENTRIFUGAL ROOF EXHAUSTER EF-4 ELECTRICAL ROOM ROOF ELECTRICAL ROOF - 7,800 1.25 744 V-BELT 3 480/3/60 GREENHECK CUBE-300 MOTORIZED DAMPER & ACOUSTICAL ROOF CURB EF-5 ELECTRICAL ROOM ROOF ELECTRICAL ROOF - 7,800 1.25 744 V-BELT 3 480/3/60 GREENHECK CUBE-300 MOTORIZED DAMPER & ACOUSTICAL ROOF CURB EF-6 ..r .. MECHANICAL. ROOM - FREEZER MECHANICAL ROOM ._. - - 4,300 0.7 . 1643 V-BELT 2 480/3/60 GREENHECK BSQ-160 WITH VFD EF-7 ELECTRICAL ROOM - FREEZER, ' , ELECTRICAL ROOM - 2,400 0 5 1442 V-BELT 3/4 480/3/60 GREENHECK . BSQ-140 CF-1 IMP ROOM, UPPER MAIN DOOR CIRC 20 4,168 - 1725 DIRECT 1/4 ` 120/1 HARTZELL UTILITY FAN, MODEL 20, RATED FOR -25 DEG F _CF-2.: WIP ROOM UPPER .MAIN DOOR CIRC . 20 4,168 - 1725 DIRECT 1/4 n 120/1 HARTZELL UTILITY FAN, MODEL 20, RATED FOR -25 DEG F CF-3 .,., - . WIP ROOM. _. . : LOWER. MAIN DOOR CIRC. 20 4,168 - 1725 DIRECT 1/4 120/1 HARTZELL UTILITY FAN, MODEL 20, RATED FOR -25 DEG F CF-4. WIP ROOM LOWER MAIN DOOR CIRC 20 ' 4,168 - 1725 DIRECT 1/4 120/1 HARTZELL UTILITY FAN, MODEL 20, RATED FOR -25 DEG F CF-5 MAIN STORAGE AIR LOCK DOOR CIRC 18 3,346 - 1725 DIRECT 1/4 120/1 HARTZELL UTILITY FAN, MODEL 18, RATED FOR -25 DEG F CF-6 MAIN STORAGE THAW ROOM DOOR CIRC 18 3,346 - 1725 DIRECT • 1/4 120/1 HARTZELL UTILITY FAN, MODEL 18, RATED FOR -25 DEG F VARIABLE AIR VOLUME TERMINAL UNIT (VAV) SCHEDULE MARK NUMBER MANUFACTURER AND MODEL PRIMARY AIR CFM RANGE UNIT SIZE PRIMARY AIR- INLET SIZE (INCHES) FAN ELECTRICAL COIL PRIMARY AIR VALVE S.P� ( INCH W.G.) N: C. RADIATED AREA SERVED REMARKS HP KW VOLTS PH HZ MIN MAX VAV-1 TITUS MODEL DTFQ 900 1700 4 12" 1 3 / 7 208 3 60 1" 31 STUDIO "A" SEE PLANS FOR ACTUAL CFM VAV-4 TITUS MODEL "DTFQ" 475 1050 3 8" 0 1 /4 2 208 1 60 1 " 24 STUDIO "B" SEE PLANS FOR ACTUAL CFM VAV-5 TITUS MODEL "DTFQ" 475 1050 3 10 0 1/4 2 208 1. 60 1 29 IDF RM., VTS RM., &VISITOR RM. SEE PLANS FOR ACTUAL CFM VAV-9 TITUS MODEL DTFQ 1700 2500 6 14 "0 3/4 14 208 3 60 " 1 38 LOBBY/CORRIDOR SEE PLANS FOR ACTUAL CFM VACUUM PUMP SCHEDULE MARK NUMBER LOCATION TYPE • SERVICE CONDITIONS • • UNIT CONDITIONS MOTOR REMARKS FLUID INLET TEMP F ELEV FT CAPACITY ACM VACUUM INCHES HG DRIVE TYPE SPEED HP VOLTS PH CYCLE VAC-1 9-101 ANNEX ROTARY VANE AIR 70 0 • 455 29.9 DIRECT 1150 25 460 3 60 [1, VAC-2 9-101 ANNEX ROTARY VANE AIR 70 0 455 29.9 DIRECT 1150 25 460 3 60 `1 VAC-3 9-101 ANNEX ROTARY VANE AIR 70 0 455 29.9 DIRECT 1150 25 460 3 60 '1' VAC-4 9-101 ANNEX ROTARY VANE AIR 70 0 455 29.9 DIRECT 1150 25 460 • 3 . 60 [1] REMARKS [1] BUSCH R 5 SERIES WITH DISCONNECT, C1'rovi40 miff v&vLt STARTER, & CONTROLS. 'E V\vl ti COMPUTER ROOM COOLING UNIT (AC) SCHEDULE MARK NUMBER LOCATION TYPE NOMINAL CAPACITY TONS FAN FAN MOTOR COIL COOLING CAPACITY CHILLED WATER HUMIDIFIER ELECTRIC REHEAT KW AIR FILTER CHILLED WATER CONNECTION SIZE • UNIT ELECTRICAL DATA REMARKS DRIVE TYPE CAPACITY (CFM) ESP IN WG HP CAPACITY MBH RM IEMP `F FLOW GPM EWT 'F MAX FLOW FT H24 CAP #/HRCOIL F.L.A. TYPE &DEPTH PER ASHRAE 52-76 FEFFICIENCY INAL SP WG SENSIBLE TOTAL DB WB PREFILTER FINAL VOLTS/PHASE F.L.A. AC2E5A IDF ROOM #1 ' CHILLED WATER. 5 BELT 2900 0.50 1 1/2 76.2 99.1 85.0 65.0 12.0 41.0 6.4 12.5 5.0 6.0 PANEL-1" PLEAT-2" 40% 0.50 (2) 0 2" F.P.T. 480/3 22 CONTEMPO MODEL CEMC-05 SPLIT CABINET, "UP" ARRANGEMENT, CYLINDER HUMIDIFIER AC2D11A IDF ROOM #2 CHILLED WATER 5 BELT 2900 0.50 1 1/2 76.2 99.1 85.0 65.0 12.0 41.0 6.4 12.5 5.0 6.0 PANEL-1" PLEAT-2" 40% 0.50 (2) 0 2" F.P.T. 480/3 22 CONTEMPO MODEL CEMC-05 SPLIT CABINET, "UP" ARRANGEMENT, CYLINDER HUMIDIFIER AC2F6A REPRO ROOM CHILLED : WATER 5 BELT 2900 0.50 1 1/2 76.2 99.1 85.0 65.0 12.0 41.0 6.4 --- --- --- PANEL-1" PLEAT-2" 40% 0.50 (2) 0 2" F.P.T. 480/3 22 CONTEMPO MODEL CEMC-05 SPLIT CABINET, "UP" ARRANGEMENT REVISION APPROVED - DATE SYM REVISION BY APPROVED DATE -AS-RECEIVED. DC FREEZER ADDITION- J#16262 WH A BTE TEST FRAME SUBSTATION 60% IFR WH,.12Q31.007: WH GV 06.26.12 DC FREEZ ER ADDITION RECORD DRAWING J16262 WH GV MBL 04.12.13 05.07.14 C D BTE TEST=FRAME SUBSTATION .90%` REVIEW.' 14786. BTE TEST FRAME SUBSTATION ,,100% REVIEW -14786 BTE TEST`FRAME SUBSTATION ISSUE FOR.°CONSTRUCTION 14786 WI WH WH _GV GV GV 09.05.12 09.14.12' 11.16.12 F VACUUM PUMP UPGRADES W3383113 WH THH 10.23.15 ACCEPTABILITY THIS DESIGN AND/OR SPECIFICATION IS APPROVED DRAWN S. RUDELL DATE 10.02.07 FELE COPY Permilt �. Plan rk view aoprovel is subject to errors and orn ssiuna. Approval of r:ons ruction documents does riot triltori� the violation of .trty adopted coda or ordinance. R ccfpt of approve; Field Copy and conditions is acknowledged: By: Date: City of Tukwila BUILDING DIVISION OWNER FURNISHED CONTRACTOR INSTALLED. AUG 152016 ISSUED FOR CONSTRUCTION OCTOBER 23, 2015 REVIEWED�FOR CODE COMPLIANCE APPROVED JAN 0 4 2016 City of Tukwila BUILDING DIVISION RECEIVED CITY OF TUKWILA DEC 1 G 2C 15 PERMIT CENTER II 3oo9 unth Ave NE, Suite ioo Bellevue WA 98004 425.628.6t o woodh'arbinger.com CHECKED SUBTITLE MECHANICAL EQUIPMENT SCHEDULE EAST ANNEX CURRENT REVISION SYMBOL c DATE W3383113 I 10.23.15 APPROVED BY... DEPT.. DATE ENGINEER 6HECKED APPROVED APPROVED TITLE MECHANICAL MASTER VACUUM. PUMP UPGRADES BUILDING 9-101 COL.: S-Z/20-23 SHEET M1E JOB NO. COMP NO. D.C. DWG NO. 9-101 M1E TJOHNSTON: 05/02/14 15:31 AIR HANDLING UNIT (AHU) SCHEDULE - MARK NUMBER ,„_, r LOCATION AREA SERVED FAN DIA.. INCH CFM TOTAL STATIC PRESSURE INCH WG APPROX RPM : BHP MOTOR HUMIDIFIER FILTERS MIN OA CFM REMARKS HP VOLTS PH CY PREFILTER FINAL ALTER AHU-201 N215 PRODUCTION AREA PRODUCTION AREA 30 1/2 23000 4.5" 1295 21.62 30 460 3 60 ARMSTRONGAM84 2" THICK 30" HI-FLO AHU-216 LUNCHROOM/RESTROOM LUNCHROOM/RESTROOM 12 1/4 2480 2.75" 2180 2.5 460 3 60 2" THICK 30" HI-FLO COOLING COIL (CC). SCHEDULE MARK NUMBER UNIT SERVED BTU COOLING CAP EAT 'F LAT 'F MAX. WATER MIN. ROWS MAX. FINS PER IN COIL . CONN. iN. MAX PRESSURE DROP REMARKS DB WB DB WB EWT 'F LWT 'F GPM AIR IN WG TUBE -FT H2O CC-1 AHU-201 N215 1,011,000 74.5 61 45 44 37 47 s 202 10 8 12' CC-2 AHU-216 142,000 72 : 68 52 49 37 47 22 10 8 2' CONSTRUCTION NOTES EXPANSION TANK (EXT) SCHEDULE MARK NUMBER SERVICE CAPACITY GALLONS DIAMETER x LENGTH PRESS. PSIG STAMP REMARKS DESIGN. GAL. WORK GAL. DESIGN CU. FT. WORK CU. FT. DESIGN WORK ET-1 CHILLED WATER TK 400 100 L0CAT10N: COL. S/22.35 ET-2 HEATING WATER TK 240 100 LOCATION: COL. S/22.35 HEATING COIL (HC) SCHEDULE MARK NUMBER UNIT SERVED BTU HEATING CAP EAT 'F WATER AIR MAX PRESSURE DROP FILTERS REMARKS DB WB EWT 'F LWT 'F GPM ENT 'F LVG 'F MIN. ROWS MAX. FINS PER IN. MAX. FACE VEL. AIR -IN WG TUBE -FT H2O PREFILTER FINAL FILTER HC-1 AHU-201N215 944,000 170 140 63 40 78 2 8 500 2' 2" THICK 30" HI-FLO OA PREHEAT AH U-201 N21.5 472,000 170 140 32 21 40 2 8 500 2' 2" THICK 30" HI-FLO DUCT MOUNTED HC-2 AHU-216 94,000 170 140 7 40 75 2 8 425 7' 2" THICK 30" HI-FLO CHILLER (CH) 'SCHEDULE MARK NUMBER TYPE CAPACITY TONS WATER GLYCOL ELECTRICAL EVAPORATOR CONDENSER REMARKS VOLTS PH CY FLOWNO GPM EWTF LWT 'F PASS MAX PD AT FLOW FT H2O REFRIG REFRIG CHARGE FLOW GPM EWT 'F LWT 'F NO PASS MAX PD AT FLOW FT H2O CH-1 CENTRIFUGAL 300 80:20 460 3 60 750 47 37 2 30 R11 750 LBS 900 85 95 2 22 TRANE CVHE 032. CH-2 CENTRIFUGAL 300 80:20 460 3 60 750 47 37 2 30 R11 750 LBS 900 85 95 2 22 TRANE CVHE 032 CH-3 CENTRIFUGAL 300 80:20 460 3 60 750 47 37 2 30 R11 750 LBS 900 85 95 2 22 TRANE CVHE 032 UNIT HEATER (UH) SCHEDULE MARK NUMBER LOCATION CFM BTU EAT 'F LAT 'F EWT 'F LWT 'F GPM MAXIMUM PD. FT. WATER MOTOR REMARKS HP RPM V PH CY UH-1 MECHANICAL ROOM 1760 200 140 1/6 1100 115 1 60 UH-2 MECHANICAL ROOM 1760 200 140 1/6 1100 115 1 60 UH-3 MECHANICAL ROOM 1760 200 140 1/6 1100 115 1 60 UH-4 MECHANICAL ROOM 1760 200 140. 1/6 1100 115 1 60 UH-5 ELECTRICAL ROOM 380 1700 50 . = 92 - - - - - 1/3 1550 480 1 60 CHROMALOX HVH-5 UH-6 ELECTRICAL ROOM 380 1700 50 92 - - - - 1/3 1550 480 1 60 CHROMALOX HVH-5 UH-7 AIRLOCK 700 18380 30 54 - - - . - 1/20 1550 480 3 60 REZNOR EGHB 7KW, 480V, 3PH UH-8 THAW ROOM 700 13740 30 49 - - - - 1/20 1550 480 3 60 REZNOR EGHB, 5KW, 480V, 3PH ; UH-9 MECHANICAL ROOM 510 6800 50 92 - - - - 1/35 1550 480 3 60 REZNOR EGHB 2KW, 480V, 3PH UH::.:.10. _...:._ '''..ELECTRICAL _ROOM . _ .5.10 .. .. _6800. 50 92 _ - - . _ . - - 1 /35 1550 480 3 60 REZNOR EGHB 2KW, 480V, 3PH PUMP (PMP) SCHEDULE MARK NUMBER SERVICE FLUID ,' TEMP F FT OF HEAD CAPACITY MOTOR PUMP TYPE MANUFACTURER AND MODEL REMARKS GPM TDH DRIVE TYPE : HP VOLTS PH CY RPM P-1 CONDENSER WTR COND. WTR. 85 45 900 15 LOCATION: MECH. RM 1ST LEVEL P-2 CONDENSER WTR COND. WTR. 85 45 . 900 15 LOCATION: MECH. RM 1ST LEVEL P-3• CONDENSER WTR COND. WTR. . 85 45 . 900 15 LOCATION: MECH. RM 1ST LEVEL P-4 SECONDARY CHW CHW 37 45 750 10 LOCATION: MECH. RM 1ST LEVEL P-5 SECONDARY CHW ' CHW 37 . ° 45 750 10 LOCATION: MECH. RM 1ST LEVEL P-6 . SECONDARY CHW CHW 37 45 750 10 LOCATION: MECH. RM 1ST LEVEL P-7 PRIMARY CHW CHW 37 130 2250 100 LOCATION: MECH. RM 1ST LEVEL P-7A PRIMARY CHW : CHW 37 130 2250 100 LOCATION: MECH. RM 1ST LEVEL P-8 HW HEATING HW 200 80 240 7.5 LOCATION: MECH. RM MEZZANINE P-8A HW HEATING HW 200 80 240 7.5 LOCATION: MECH. RM MEZZANINE P-12 GLYCOL/WTR MAKEUP GLYCOL/WTR 55 92 4.8 1 LOCATION: MECH. RM MEZZANINE P-9 AHU-201 N215 HW 170 10 63 0.5 460 3 60 HOT WATER CIRCULATOR FOR AHU 201,-215 (P-9x15) P-10 AHU-216 HW 170 10 7 1/4 460 3 60 HOT WATER CIRCULATOR FOR AHU 216 P-11 EXIT CORRIDOR HTG COIL HW 170 3 1 1/10 120 1 60 P-13 AHU-201 N215 HW 170 10 32 0.5 460 3 60 HOT WATER CIRCULATOR FOR AHU 201 N215 (P-13x 15) CONDENSATE RETURN UNITS MARK NUMBER LOCATION PUMPS RECEIVER MANUFACTURES DESIGNATION (ROTH PUMP CO.) CONFIG GPM HEAD PSIG CAP GAL PRESS CRU-1 TUNNEL 3 DUPLEX 6 30 20 14.7 PSIA UB-112D CRU-2 MECHANICAL ROOM DUPLEX 30 100 60 14.7 PSIA . , UE-144D STEAM/WATER CONVERTERS MARK NUMBER SERVICE TUBE SIDE SHELL - REMARKS DUTY BTU/HR MEDIA . GPM EWT LWT 'F MEDIA SWC-1 HW HEATING ' 4 425 000 WATER 148 140 200 15# STM SWC-2 HEATING 4,425,000 WATER 148 140 200 15# STM SWC-3 FLASH COOLING 459,000 WATER 240 140 143 15# COND COOLING TOWER (CT) SCHEDULE MARK NUMBER GPM NOM TONS BAIT 'F LWT 'F AMBIENT AIR FANS FAN MOTORS SUMP HEATERS REMARKS 'F DB 'F WB N0. TYPE CFM NO. HP VOLT PH CY N0. KW VOLTS PH HZ CT-1 900 300 95 85 60 3 3 30 460 3 60 CT-2 900 300 95 85 60 3 3 30 460 3 60 CT-3 900 300 95 85 60 3 3 30 460 3 60 SUPPLY FAN Atle152016 (SF), RETURN FAN (RF, EXHAUST FAN (EF) SCHEDULE • RECEIVED CITY OF TUKWILA DEC 16 2015 IL MARK NUMBER SF-1 SF-2 RF-1 RF-2 EF-1 EF-3 MARK NUMBER LOCATION UNIT SERVED BTU CAP AREA SERVED TRANSFORMER ROOM EXIT CORRIDOR LUNCH ROOM TRENCH T'STAT SYSTEM RESTROOMS CFM 20,000 265 640 80 1840 VAC. PUMP AREA 6000 MAX FACE VELOCITY EAT 'F SUPPLY FAN SECTION TOTAL STATIC PRESS. INCHES WG LAT 'F MIN. 1.15 0.375 0.6 .075 0.375 APPROX. RPM MOTOR FILTER HP VOLTS PH CY 410 7.5 460 3 60 1750 1130 1750 730 1/12 0.5 1/8 1.0 120 460 120 460 0.50 740 1.5 460 HOT WATER DB WB DB WB EWT `F LWT 'F GPM ROWS L FINS PER INCH 60 3 60 1 60 60 60 MAX PRESSURE DROP REMARKS PACE 49.AF SWSI OA INTAKE HOOD W/FILTER CENTREX-REX 080 CENTREX-REX 080 GREENHECK LB-24 REMAR1(� REVIEWED FOR ODE COMPLIANCE APPROVED AIR -IN WG TUBE -FT H2O JAN 0 4 2016 HC-1 SF-2 14,000 340 20 70 i 170 140 1 1 8 0.2 ISSUED FOR CONSTRUCTION OCTOBER 23. 2015 CIyr TukvviiiA RI III nuqr, nI\/IsIfI 1009 Z12th Ave NE 'Suite too BBIIevvue WA`9SX4 425.E .6OOo. 'Woodharbinger..com REVISION APPROVED DATE SYM REVISION BY APPROVED DATE MECH. SCHEDULE M3/109-101 B-4632. CONVERTED -TO CAD . S.RUDELL 10.02.07 M DC FREEZER ADDTION J#16262 WH MBL 04.12.13 BTE TEST FRAME SUBSTATION- 60% IFR W11_12031.007 WH GV 06.26.12 DC FREEZER ADDITION - RECORD. DRAWING ,J416262 WH MBL 05.07.14 TESL,FRAME SUBSTATION ,..90%. REVIEW,..,.... . ,, 1.4786. WH ..... GV_.,.. 09.05.1-2... N... VACUUM -PUMP UPGRADES.:. , W3383113,. ..WH ,. THH 10.23.15 K , 6JE TEST FRAME SUBSTATION 100%-.REVIEW 14786 WH . GV 0914.12 L BTE TEST FRAME SUBSTATION ISSUE FOR CONSTRUCTION 14786 WH GV 11.16.12 ACCEPTABILITY THIS DESIGN AND/OR SPECIFICATION IS APPROVED APPROVED BY. DEPT. DATE DRAWN S. RUDELL CHECKED -DATE 10.02.07 SUBTITLE MECHANICAL EQUIPMENT SCHEDULE EAST ANNEX CURRENT REVISION W3383113 SYMBOL N DATE 10.23.15 ENGINEER CHECKED APPROVED APPROVED TITLE. VACUUM PUMP UPGRADES BUILDING 9-101.1 MECHANICAL MASTER COL. S-Z/20-23 SHEET M1H JOB NO. COMP NO. DWG NO. D.C. 9-101.1-M1H TJOHNSTON: 04/17/14 LEGEND SYM REVISION BY APPROVED DATE SYM REVISION LC 10" CHWS, FOR CONTINUATION SEE 1ST FLOOR PIPING PLAN 109-101-1M94 o4 et- 3"CA TO SPRINKLER CONTROLS, SEE DETAIL M1M94 1 M511. CAP 2" VENT-6 l[ 11" PC- M1M94 M1M500 Cr SEE DWG 1M94 FOR CONT. - 10" CHWS L--3"CA MEZZANINE C-'- - 1 2 C MPS PRV ASSEMBLY M1M94 1M503 1"CA CONTINUED ON SHT. 1 M94 (rn') 1 "HWR * FROM UH-4 AIR SEPARATOR M1M94 M1M500. M1M94 M1M500 c ao 3"CA. DN' c 12"CHWR 0 UP M1M500 PRV tr4" HWS` -4"-HW �--��-14" PR 2 SV UP THRU ROOF DRAIN (1YP) 4 H SWC-1 SWC-2 10" CHWR TO H 2 SEE DWG 9-101-M1M44 E M1M94 M1 MiM94 M1M500 STAIRWELL AHU-216 SEE DWG I 9-101—M1M44_, i" HWR i"HWR H M1M94 M1M501 MEZZA\IhE SUPPORT AREA PIPING PLAN SCALE: 1 /4"=1 —0" APPROVED DATE --A.:.. CHILLED- WATER -UPGRADE-- ,.. - • DCA-9-08-021 COFFMAN M. SOTURA 10.22.08 CHILLED WATER UPGRADE ADDENDUM #2 DCA-9-08-021 COFFMAN M. SOTURA 01.07.09 C 7425-10 REMOVE HUSTLE PILLARS & RAILS 10432438 M.WONG RWS 04.22.10 9-101 E ANNEX PUMP REPLACEMENT W1593919 CEI MS 07.19.13 VACUUM PUMP UPGRADES W3383113 WH THH 10.23.15 -4" HPS 2 0► SURG TANK M1M94 22.25 22.3 22.35 22.5 M1M500 22.75 4" COMP. AIR 10" CHWR (68'-6" AFF) 14" PC FROM CRU-2 10" CHWS (68'-6" AFF) 11" PC FROM AIR SEPARATOR 4" HWR (68'-6" AFF) 4" HWS (68'-6" AFF) 3" LPS UP TO HUMIDIFIER SERVICE (70'-0" AFF) 24 CU FT C.A. TANK DRYER, FILTER & PRV ASS'Y (2 M1M94 M1M501 22.9 ACCEPTABILITY THIS DESIGN AND/OR SPECIFICATION IS APPROVED APPROVED BY DEPT. DATE DRAWN S.RUDELL CHECKED ENGINEER CHECKED APPROVED ,ALA 1.5N111S CW HW CHWS CHWR -HWS ---HWR PC A -- V LPS. PVAC PW HPS DOMESTIC COLD WATER HOT WATER ;: CHILLED WATER SUPPLY CHILLED WATER RETURN HEATING WATER SUPPLY HEATING WATER RETURN PUMPED CONDENSATE COMPRESSED AIR VENT LOW PRESSURE STEAM PROCESS VACUUM PROCESS WATER HIGH PRESSURE STEAM SUPPLY GENERAL NOTES 1. EVERPURE INSURICE WATER FILTER EV9324-01 W/ EV9612-21 PIPE INSULATION SHALL BE FOAM GLASS WITH ALUMINUM JACKET IN EXTERIOR SPACES AND FIGERGLASS ASJ/SSL FOR INTERIOR SPACES. REFERENCE DRAWINGS 109-101-M312. 109-101-1.M94 1,09-101-M 1: M500 109-101-M1M501 109-101-M1 M44 SUPPORT AREA. FLOW DIAGRAM 1ST FLOOR PIPING PLAN MEZZANINE PIPING PLAN, SECTIONS & DETAILS PIPING PLAN, SECTIONS & DETAILS MEZZANINE. SUPPORT AREA HVAC PLAN REMOVE 1/2"CHWS/R BACK TO MAIN. (U® REVIEWED FOR CODE COMPLIANCE APPROVED JAN 0 4 2016 City of Tukwila BUILDING DIVISION RECEIVED CITY OF TUKWILA DEC 1 6 2015 PERMIT CENTER ISSUED FOR CONSTRUCTION OCTOBER 23, 2015 DATE SUBTITLE 05.30.07 MEZZANINE SUPPORT AREA PIPING PLAN. TITLE MECHANICAL MASTER. VACUUM PUMP UPGRADES BUILDING 9-101 COL.R—S'/22-22.5 DEV. CENTER, WA M1M94 9-101 KEY PLAN SCALE: N.T.S. 4' 2' 0 4' 16' SCALE: 1 /4"= 0" 3009 112th Ave NE, Suite 100 • Bellevue WA 98004 a n 425428.6000 woodharbingencart earl CURRENT REVISION W3383113 SYMBOL DATE SHEET MI M94R 10.23.15 JOB, NO. COMP NO. DABENOJk 08/07/ DWG NO, 09-101—M 1 M94R B LEGE\ D 1)"DRAIN DN: MASTER OILS; FUNNEL DRN VP-1B REMOVED MASTER OIL. FUNNEL DRN 3" RELIEF VALVE DN. 4"VTR 3 4"V DN. ff 2"FD2 FD2 2"FD2 22.25 22.35 1i" VENT FROM CRU-1 2"V DN. 22.5 RECEIVERS (650 GAL) 2 . 5 22.9 MEZZANINE SUPPORT AREA PLUMBING PLAN SCALE ire°=, -0" R.25 1"A 180#, SEE. 2M14' •R DRY FILTERS 11"DRAIN TO FIRE VALVE. CAP kz" DRAIN R.6 P.O. CAP INGERSOLL RAND D150M 1"A 180# TO DRYER r, Ario i INGERSOLL RAND UP6-25-200 MEZZANINE " --H O w U LLJ fY 6F--VAC I 22.25 22.35 22.5 4"VAC I UP TO TRUSS SPACE 1±-1'° 6"VAC II UP TO TRUSS SPACE 22.75 EZZANINE SUPPORT AREA PIPING PLAN SCALE: 1 /4"=1 -0" SYM. REVISION APPROVED DATE SYM. REVISION BY APPROVED DATE PROVIDE HUSTLE COMPRESSOR DRAIN B VACUUM PUMP UPGRADES 11.904804 W3383113 M.WONG WH RWS .,.. THH 06.01.11 10.23.15 ACCEPTABILITY THIS DESIGN AND/OR SPECIFICATION IS APPROVED DRAWN S.RUDELL 22.9 Age 15 2016, A GENERAL \OTES 1. FD1 & FD2 INCLUDE TRAP PRIMERS. 11, REMOVE ABANDONED'AIR COMPRESSOR AND AIR DRYER. COORDINATE WITH BOEING ENGINEER FOR STORAGE AND SAFEKEEPING. REMOVE ASSOCIATED PIPING, DEVICES AND APPURTENANCES.. BACK TO WALL AND CAP AS INDICATED. REFERENCE DRAWINGS 109-101-1M455 1ST FLOOR. PLUMBING PLAN 109-101-M314 PLUMBING FLOW DIAGRAM 0 REVIEWED FOR CODE COMPLIANCE APPROVED JAN 0 4 2016 City of Tukwila BUILDING DIVISION RECEIVE? CITY OF TUKWILA DEC 1 b 2015 PERMIT CENTER ISSUED FOR CONSTRUCTION OCTOBER23'2Oi5. 4' 2' M1M1I44 0 4' 8' SCALE: 1/4" = 1' - 0" 8 4 0 4 8 16` SCALE: 1 /8 = 1'-0" 3oo9;uithAve NE, Sid* .zoo Befewe WA, 98004. 425 628.6o woodharbinger.corn DATE 05.21.07 CHECKED SUBTITLE MEZZANINE SUPPORT AREA PLUMBING PLAN APPROVED BY DEPT. DATE ENGINEER CHECKED APPROVED APPROVED TITLE MECHANICAL MASTER VACUUM PUMP UPGRADES BUILDING 9-101 COL.R-S722-23 DEV. CENTER, WA CURRENT REVISION W3383113 SYMBOL B sHEM1M144R JOB NO. DWG NO. DATE 10.23.15 COMP NO. 09-101-M1M144R 22.75 LEGEND. BLIND FLG': DRIP 'LEG=- BLIND FLG.. • COMP. AIR CONN.'S 22.9 4"PSV VENT TO ATMOS. ROOF A A A n A \ / \ / \ / \ / \ / \ / \ / \ / \ V V V v V V V V CW-4 HWR HWS 3"DRAIN 10" CHWR MEZZANINE HPS SWC-2 2 RAP 1I- A A /\ i\ A A \/ \ / \. / \ /\ / \ V \/ V 4- 4" HWR iv, a P-8 -1-- -- SUCT 3"DRAIN DISCH 4"PSV VENT TO ATMOS. SECTION 2" VENT THRU ROOF CONTROL VALVE ,2" MAKE-UP 4"PSV 4"PSV SWC-1 WC-2 4"HWS-1, I.r-4" HWR 4 HPS-' : .1 10" CHWR SWC-3 MEZZANINE SECTION SCALE;, 1/4' = t-0" M1M500 SECTION M1M94 MiM500 F SCALE: 1/4' = 1-0" M1M94IM1M500 A M1M94IM1M500 22.9 2" MAKE-UP A A A\ A A CW--�° HWR- V V \/ HWS MEZZANINE r�F SWC-3 22.75 �- 2" VENT THRU ROOF A A �11" PR A A ROOF A \ / \ / \ / \ / l\ / \ / \ / \ / \ V V V " '2"COND —1—t t O �i F 4" HWR R ROOF 2"P_ C 2"PC�X"CW i"HWR(_4"HWR 14" PR 4"HWS 11-2 > 1 "CHWR I SWC-2 II SWC-1 Al� H 4" HP 44 III WC .. 4"HWS MEZZANINE �� I SECTION D SCALE: 1/4' = 1'-0" M1M94 M 1 M500 4" HWR ,Z 1'0" CHWR THERMOMETER CAL & SIMILAR 2 COOLERS (TYPICAL 2 PLACES) DETAIL SCALE: 1/4' = 1' 2 M1M500 " COND. SECTION SCALE: 1/4, = 11_01' T B M 1 M94J M t M500 1#" PC 10" CHWS BLIND FLG. R�25 0 U SEE DWG. 9-101-M1M94 FOR CONTINUATION. COND. BY-PASS 2" COND. VENT SWC-3 2" COND. VENT 3" DRAIN MEZZANINE DETAIL PARTIAL LOWER PLAN 22.75 1 SCALE: 1/4' = 1'-0" �1.2" CHILLED WATER PIPE M1M94IM1M500 1On CHWR F-- 1 PC_ , ........., „ „1i PC I _ n p 4n HWR �_ "CA " I 6" EXHAUST VENT 1 1 PC 1" PG 4" HPS 4 HWS I _ THRU ROOF ROOF 1 „ PG I ' n 1 /2 CHWR VENT 1 i» ' V■■ti■i.Iff..►:11 1Ii111 .s SCAP 3"VAC 1 /2"CHWS ., STAIRWELL ,/.�► I I szr`/■■w, .. v�►.�"�� .. �..R.�,�+_ . 10 CHWR CO �.- LI = 1/' -..- r _� _,. _. rig -' :h rs 2' INTAKE e FILTER . TYP2 / a. / % y 9/ • " T3HROTTLINGKEYSTONE / ? _��it i 1VALVETYP1 �, � / • !%�L2,�� 14 FLG. ,/ 5 ,; mayill, 8 �,,, �,� ,,.�,.. 8 CONN. 3/4"WASTE //// ,� , 4�_I/L 6# ,..; A Pt. (TYP. 2) OIL DRAIN _ _ 0 .nimmiumiim �v;� i MEZZANINE VP-1 A (VP-1 B REMOVED) 1�VP-2A i1 VP-2B THERMOMETERS DRAIN _, 1" CHW 1 4"CA-* 3"LPS er3" CW 1 SURGE TANK DRAI r2" CW 0 SECTION SCALE: 1/4' = OIL FILTER 4"x2"RED ELBOW 2"FLEX 3/4" WASTE OIL (TYP) 1 /2"CHWS 1/2"CHWR INTAKE FILTER SCALE: 1/4' = 1'-0" 4"HPS 4"HWS M1M94 M1M500 PHASE I 1 " CHWS & CHWR G 3"CA M1M94 M1M500 R.25 ROOF MEZZANINE RA 5 2016. GENERAL NOTES 1 EXTERNAL OIL COOLER, BUSCH MODEL # OCM-2 (TYP. 2)' 2. PIPE INSULATION SHALL BE FOAM' GLASS WITH ALUMINUM JACKET IN EXTERIOR SPACES AND FIGERGLASS ASJ/SSL FOR INTERIOR SPACES. REFERENCE DRAWINGS 109-101-M1M94 MEZZANINE PIPING PLAN 109-101-M1M501 MEZZANINE PLAN, SECTIONS &DETAILS CONSTRUCTION. NOTE'S PHASE I REMOVE 1/2"CHWS/R, ASSOCIATED DEVICES AND APPURTENANCES BACK TO MAIN. SEE SHEETS' M1 M94R AND M1 M501R FOR ADDITIONAL `REMOVAL INFORMATION. VACUUM PUMPS VP-2A & VP-2B CAN CONTINUE TO OPERATE WITH CHWS/R DISCONNECTED. REMOVE AND SURPLUS VACUUM PUMP VP-1A AND COMPONENTS UNLESS OTHERWISE NOTED. COORDINATE WITH BOEING ENGINEER FOR STORAGE AND SAFEKEEPING. REMOVE 4"VAC PIPING, ASSOCIATED DEVICES AND APPURTENANCES BACK TO ACCUMULATOR. REMOVE 3/4" WASTE OIL DRAIN AS INDICATED. REMOVE AND DISPOSE INERTIA BASE BLOCKS. REMOVE 4"V UP TO VTR AS INDICATED. PHASE II 7. AFTER COMPLETION OF PHASE I AND SYSTEM IS UP AND RUNNING. REMOVAL WORK SHALL. COMMENCE FOR PHASE II. REMOVE AND SURPLUS VACUUM PUMPS VP-2A, VP-2B AND ITS COMPONENTS UNLESS OTHERWISE NOTED. COORDINATE WITH BOEING ENGINEER FOR STORAGE AND SAFEKEEPING. REMOVE SECTION OF 3"V AS INDICATED. SAVE FLEXIBLE CONNECTION FOR REUSE. REMOVE AND DISPOSE INERTIA BASE BLOCKS. REMOVE WASTE OIL DRAIN BACK TO FUNNEL DRAIN. REMOVE 3"VAC PIPING BACK TO ISOLATION VALVE. REVIEWED FOR CODE COMPLIANCE APPROVED JAN 0 4 2016 City of Tukwila BUILDING DIVISION ISSUED FOR CONSTRUCTION OCTOBER 23, 2015 RECEIVED CITY OF TUKWILA DEC 16 2015 4' PERMIT CENTER 8' 16' II III 11•1111 SCALE: 1 /4"=1'-0" 3009 with Ave NE, Suite xoo Bellevue WA 90004 05.628.6coo uuoodharbingercom; SYM. REVISION APPROVED DATE SYM REVISION: • BY APPROVED DATE. -CHILLED WATER -UPGRADE DCA-9-08-021 COFFMAN M. SOTURA 10.22.08 CHILLED WATER UPGRADE ADDENDUM #2 DCA-9-08-021 COFFMAN M. SOTURA 01.07.09 C 7425-10 REMOVE HUSTLE PILLARS & RAILS 10432438 M.WONG RWS 04.22.1.0 VACUUM PUMP UPGRADES W3383113 WH THH 10.23.15 ACCEPTABILITY THIS DESIGN AND/OR SPECIFICATION IS APPROVED APPROVED BY DEPT. DATE DRAWN S.RUDELL DATE 06.05.07 CHECKED SUBTITLE SECTIONS & DETAILS CURRENT REVISION W3383113 SYMBOL D DATE. 10.23.15 ENGINEER CHECKED APPROVED APPROVED TITLE. MECHANICAL MASTER VACUUM PUMP UPGRADES BUILDING 9-101 COL.R-S722-22.5 DEV. CENTER, WA SHEET Ml M500R JOB. NO. COMP NO. DWG NO. 09-101-M1M500R WONGK: 04/22/10 15: LEGEND _L(LCHPCWS: FT 4 HWR: 4.HWS_. ROOF MEZZANINE 22.5 SURGE TANK 4" VAC SECTION SCALE: 1/4' 1_"CA ,.--2" CW 6" VAC M1M94I till M501 ELEC. PANEL 22.75 C.A. TANK FUNNEL DRAIN 14" CHWS (0I HWS HWR TI I-" -- -- ---1 III I III _ I . III I III J ID-- — - ' ��,.,� Io I. I I I VI. I I I i — — IT II I (-`F,, 1'� ji c i—I-� _r1 --I_ -I-T ELEVATION NEZZANINE SUPPORT AREA AHU-216 CONNECTION DIAGRAM SCALE: NONE M1M94 M1M501 22.9 Q3"CW ROOF M1M94 M1M500 1/2"CHWS/R, SEE M1M94, FOR CONT. M1M94M1M500 STAIRWELL ISOLATION VALVE VTR 6"VAC 4" VAC M1M94 M1M5Qt MEZZANINE SUPPORT AREA VACUUM PIPING PARTIAL PLAN SCALE: 1 /4"=1'-0" 22.25 22 3 22.35 22.5 M1M94 M1M500 4" VAC I DN 6" VAC II DN. FOR CONT. SEE DWG. 9-1O1-1M145 BLIND FLG VAC. RELIEF VALVE (TYP. 2) 22.75 M1M94 M1M501 CW HW CHWS CHWR —HWS —HWR PC A -- V LPS PVAC DOMESTIC COLD WATER HOT WATER CHILLED WATER SUPPLY CHILLED WATER RETURN HEATING WATER SUPPLY HEATING WATER RETURN PUMPED CONDENSATE. COMPRESSED AIR VENT LOW PRESSURE STEAM PROCESS VACUUM EFEEN.CE DRAWINGS 109-101-1M94 109-101-1M145 109-101—M1M94 109-101—M1 M500 1ST FLOOR PIPING PLAN 1ST FLOOR PLUMBING PLAN MEZZANINE PIPING PLAN MEZZANINE PIPING PLAN, SECTIONS & DETAILS • CONSTRUCTION NOTES PHASE I D► REMOVE rCHWS/R, ASSOCIATED DEVICES AND APPURTENANCES BACK TO MAIN. SEE SHEETS M1M94R AND M1M500R FOR ADDITIONAL REMOVAL INFORMATION. VACUUM PUMPS VP-2A AND VP-2B CAN CONTINUE TO OPERATE WITH CHWS/R DISCONNECTED. REMOVE AND SURPLUS VACUUM PUMP VP-1A AND COMPONENTS UNLESS OTHERWISE NOTED. COORDINATE. WITH BOEING ENGINEER FOR STORAGE AND SAFEKEEPING. REMOVE 4"VAC PIPING, ASSOCIATED DEVICES AND APPURTENANCES BACK TO ACCUMULATOR VACUUM. CONNECTION. REMOVE 4"V UP . TO VTR. REMOVE AND .DISPOSE INERTIA BASE BLOCKS. REMOVE 3/4" WASTE OIL DRAIN PIPING AS INDICATED. SEE ,SHEET M1 M500R FOR; ADDITIONAL INFORMATION. PHASE II 7. O 15 2116 REVIEWED FOR CODE COMPLIANCE 'APPROVED JAN 0 4 2016 City of Tukwila BUILDING DIVISION RECEIVED CITY OF TUKWILA DEC 1 6 2015 PERMIT CENTER ISSUED FOR CONSTRUCTION OCTOBER23, 2015 AFTER COMPLETION OF PHASE I AND SYSTEM IS UP AND RUNNING, REMOVAL WORK SHALL COMMENCE FOR PHASE II. REMOVE AND SURPLUS VACUUM PUMPSVP-2A, VP-2B AND ITS COMPONENTS UNLESS OTHERWISE NOTED. COORDINATE WITH BOEING ENGINEER FOR STORAGE AND SAFEKEEPING. REMOVE 3"V BACK TO VACUUM PUMP CONNECTION. SAVE 3" FLEXIBLE CONNECTION FOR REUSE. REMOVE AND DISPOSE INERTIA BASE BLOCKS. REMOVE WASTE OIL DRAIN LINE BACK TO FUNNEL DRAIN. RELOCATE EXISTING FUNNEL. DRAIN TO ACCOMMODATE CONCRETE PAD EXTENSION. SEE SHEET M1M501 FOR NEW LOCATION. REMOVE 3"VAC PIPING AS SHOWN. 4' 2' 0 4` 8' 16' SCALE: 1 /4"=1'-0" 3009'112th Ave NE, Suite ioo: Bellevue WA 98004 425 628.6000 woodharbinger.com SYM. REVISION BY APPROVED DATE SYM REVISION BY APPROVED DATE EXISTING CONDITIONS A VACUUM PUMP UPGRADES W3383113 WH THH 10.23.15 ACCEPTABILITY THIS DESIGN AND/OR SPECIFICATION IS APPROVED DRAWN S.RUDELL DATE 6.19.07 CHECKED SUBTITLE MEZZANINE PIPING PLAN, SECTIONS & DETAILS CURRENT REVISION SYMBOL DATE W3383113 A 10.23.15 APPROVED BY DEPT. DATE ENGINEER CHECKED APPROVED APPROVED MECHANICAL MASTER VACUUM PUMP UPGRADES BUILDING 09-101 �M1M501R JOB NO. COMP NO. P.25-R.25/23.3-22.9 DEV. CENTER, WA DWG ND. 09-101-M1M501R CPECK: 9/11 /2015 10:43:10 LEGEND 48"0 O.A. INTAKE M1M44 :M1 M505 R.25 t � l M1M44 M1M505 R.6 96/36 O.A. SUPPLY DUCT SF-1 MEZZ NINE 18"0 DN TO 1ST FLR 24"x24" AUTOMATIC DAMPER FOR EF-3 UH-1 UH-2 14"0 UP FROM 1ST FLR EF-1 EXHAUST AIR LOUVER 14/30 EF-2 VD MOTORIZED DAMPER SILENCER \1 A - AHU-216 RF-1 30/14 36"x27" EXHAUST 60"x72" O.A. INTAKE MEZZANINE SUPPORT AREA HVAC PLAN SCALE: 1. /4"=1 -0" 22.25 22.35 22.75 22.9 J91_ 5 2016 EMCS CONTROLLED, SEE DWG 9-101-1300. REFERENCE DRAWINGS 09-101-1M44 1ST FLOOR SUPPORT AREA HVAC PLAN CONSTRUCTION NOTES a 0 REVIEWED FOR CODE COMPLIANCE APPROVED JAN 0 4 2016 City of Tukwila BUILDING DIVISION RECEIVED CITY OF TUKWILA DEC 16 2015 PERMIT CENTER ISSUED FOR CONSTRUCTION OCTOBER 23, 2015 Al M2 3 M1M18 M1 M30 4 2 0 MIM4 2 SCALE: 1 /4 =1' —0" 3oa9.u2tIT Ave NE, Suite too.. Bellevue.WA 98004 425.62t6000 woodharbIngercnnx SYM REVISION APPROVED DATE SYM. REVISION BY APPROVED DATE EXISTING CONDITIONS A VACUUM PUMP UPGRADES W3383113 WH THH 10.23.15 ACCEPTABILITY THIS DESIGN AND/OR SPECIFICATION IS APPROVED DRAWN S.RUDELL DATE 05.29.07 CHECKED SUBTITLE MEZZANINE AREA PLAN CURRENT REVISION W3383113 SYMBOL A DATE 10.23.15 APPROVED BY DEPT. DATE ENGINEER CHECKED APPROVED APPROVED TITLE MECHANICAL MASTER VACUUM PUMP UPGRADES BUILDING 9-101 SHEET M1M44 JOB NO. COMP NO. COL. P.25—S'/22-22.9 DEV. CENTER, WA DWG Na 09-101—M1M44 t, LEGEND R.25 10" CHWS, FOR CONTINUATION SEE 1ST FLOOR PIPING PLAN G. 109-101-1M94 - a' M1M94 M1M500 C� SEE DWG 1M94 FOR CONT. - C� et- PRV ASSEMBLY M1M94 1M503 1"CA CONTINUED ON SHT. 1M94 (TYP) 1 "HWR^4`.t- FROM UH-4 AIR SEPARATOR.\ M1M94 M1M500 M1M94 M1M500 M1M94 M1M500 c TC M1M94 CAP 1M511 12." VENT-6 1 " PC-6 10" CHWS --1"CA MEZZANINE 71L1 (--1/2"C O _-12 MPS i"CA DN' c i 's SWC-1 SWC-2 10" CHWR TO H 2 SEE DWG 9-101-M1M44 M1M94 12"CHWR C) UP 4 MiM500 10"CHWS PRV HW PRV STATION--� ft L ° 1 M1M94 M1M500 M1M500 STAIRWELL 12"CHWS "CH 1 "CHWS 1/2"CIPNR 1 /2"CI-WS AHU-216 SEE DWG 9-101—M1M44 1 "HW & CW "HWS 1 " HWR "HWR "HWS —0 PRESS. rT GAGE VAC II M1M94 MiM501 MEZZANINE SUPPORT AREA PIPING P_AN SCALE: 1 /4"=1 -0" SURG TANK 22.25 22.3 22.35 4" HPS 1" COMP. AIR 10" CHWR (68'-6" AFF) 1" PC FROM CRU-2. 10" CHWS (68'-6" AFF) 1" PC FROM AIR SEPARATOR 4" HWR (68'-6" AFF) 4" HWS (68'-6" AFF) 3" LPS UP TO HUMIDIFIER SERVICE (70'-0" AFF) M1M94 M1M500 M 1 M94 M.1 M501 PARTIAL PLAN VACUUM SYSTEM M1M94 22.75 24 CU FT C.A. TANK DRYER, FILTER & PRV ASS'Y M1 M501 22.9 "i-mi lir 7 B 15 2016 CW HW —CHWS--- CHWR WS —HWR---- PC A --V LPS PVAC PW- HPS- DOMESTIC COLD WATER HOT WATER CHILLED WATER. SUPPLY CHILLED WATER RETURN HEATING WATER SUPPLY HEATING WATER RETURN PUMPED CONDENSATE. COMPRESSED AIR VENT LOW PRESSURE. STEAM PROCESS VACUUM PROCESS WATER HIGH PRESSURE STEAM SUPPLY. GENERAL NOTES 1. EVERPURE INSURICE WATER FILTER EV9324-01 W/ EV9612-21 2. PIPE INSULATION SHALL BE FOAM GLASS WITH ALUMINUM JACKET IN EXTERIOR SPACES AND FIGERGLASS ASJ/SSL FOR INTERIOR SPACES. REFERENCE DRAWINGS 109-101-M312 109-101-1M94 109-101-M1M500 109-101-M1 M501 109-101-M1 M44 SUPPORT AREA FLOW DIAGRAM 1ST FLOOR PIPING PLAN MEZZANINE PIPING PLAN, SECTIONS & DETAILS PIPING PLAN, SECTIONS & DETAILS MEZZANINE SUPPORT AREA HVAC PLAN PROVIDE CHWS. AND CHWR PIPING TO SERVE NEW VACUUM PUMPS. POINT OF CONNECTION TO EXISTING. 0 0 REVIEWED FOR CODE COMPLIANCE APPROVED JAN 0 4 2016 City of Tukwila BUILDING DIVISION RECEIVED CITY OF TUKWILA DEC 1 6 2015 PERMIT CENTER ISSUED FOR CONSTRUCTION OCTOBER 23, 2015 4' 2' J M1M94 4' 8' 16' 11111111111111 SCALE: 1 /4"=1'-0" oo9;112thAve :NE, 'SW* ioo Beilevue WA t8004: 425.628 6omo waodharbingeccoo SYM A B C D REVISION BY APPROVED DATE SYM REVISION BY APPROVED DATE HILLER -WATER UPGRADE......: DCA-9-08-021 COFFMAN• M. SOTURA 10.22.08 CHILLED WATER UPGRADE ADDENDUM #2 DCA-9-08-021 COFFMAN M. SOTURA 01.07.09 7425-10 REMOVE HUSTLE PILLARS & RAILS 10432438 M.WONG RWS 04.22.10 9-101 E ANNEX PUMP REPLACEMENT W1593919 CEI MS 07.19.13 E VACUUM PUMP UPGRADES W3383113 WH THH 10.23.15 ACCEPTABILITY THIS DESIGN AND/OR SPECIFICATION IS APPROVED APPROVED BY DEPT. DATE DRAWN S.RUDELL DATE 05.30.07 CHECKED SUBTITLE MEZZANINE SUPPORT AREA PIPING PLAN CURRENT REVISION W3383113 SYMBOL E DATE 10.23.15 ENGINEER CHECKED APPROVED APPROVED TITLE MECHANICAL MASTER VACUUM PUMP UPGRADES BUILDING 9-101 COL.R-S'/22-22.5 DEV. CENTER, W SHEET M1M94 JOB. NO. COMP NO. DARENOJA: 08 /07 / 15 18:12 DWG NO. 09-101-M1M94 22.9 22.75` LEGEND 4"PSV VENT TO; . ATMOS. ROOF \ / \ / \ / \ / \ / \ / v v v V V CW*494I ;"CW-.kt, DRIP PA HWR HWS i"DRAIN 10" CHWR MEZZANINE "DRAIN \ / \ / \ v V V SWC HPS 2 2 P I. ci'oie / \ / \ / \ / \ /Y\ / \ V V v \,i V 4" HWR P-8 SUCT DISCH Rv25 BLIND FLG. DRIP LEG BLIND-_ FLG. COMP. AIR CONN.'S 4"PSV VENT TO ATMOS.- SECTION A SCALE: 1/4' =1'-0" 2" VENT THRU ROOF CONTROL VALVE 2" MAKE-UP ROOF 4"PSV SWC-.1 2"bD' 3"C 2"CD 4"HWS- 4" HPS 10" CHWR SWC-3 4" HWR MEZZANINE. SECTION. SCALE: 1/4' = 1'-0" VAC II RECEIVER VACUUM GAGE & TRANSDUCER (TYP. 2) " CHWS VAC I RECEIVER SECTIO C M1M941M1M500 F SCALE: 1/4' = 1'-0" M1M94I11M500 MIM94IM1M500 6" EXHAUST VENT THRU OOF 3"V 3" FLEX CONN 22.9 22.75 2" MAKE-UP 4c— 2" VENT THRU ROOF 1i" PR ROOF \v/\v/ /"rae\/,a'/\v/\/,\/\v/\/\v-/\v/•\v/\ v v v v v v CW ��HWS 2 „ e e 4" HWR HWR +-- -f- v 10" CHWR ' 2"COND 1'1 I < +t � t0 e� _I SWC-3 < MEZZANINE R ROOF 2"PC 2"PC X"CW + + 14" PR " HWR 4"HWS i"HWR \J 1 " CHWR ' SWC-2 it SWC-1 �I I 4" HP I j � I. Jill. ij4 ' r WC -3L I 4"HWS J 0 _ MEZZANINE SECTION B SCALE: 1/4' = 1'-0" CHWS/R VALVE ASSEMBLY, SEE M 1 M500 M]M94 M1M500 DETAIL 2 SCALE: 1/4' = 1-0" M1M500 2" COND. SECTION B SCALE: 1/4' = 1'-0" M1M94 M1M500 1}" PC 10" CHWS SEE DWG. 9-101-M1M94 FOR CONTINUATION. COND. BY-PASS 2" COND. VENT 22.75 SWC-3 2" COND. VENT i" DRAIN MEZZANINE DETAIL PARTIAL LOWER PLA\ SCALE: 1/4' = 1' 0" �12" CHILLED WATER P • M1M94 MiM500 LL«L�J j_ " __ .1 �� 10 CHWR 1-----_ „ - 22 5 1 PC_ 3"VAC ��` `' 1" PC ' '4" HWR "CA " (. I 4 HWS 6" EXHAUST VENT 1 1 PC 1t" PC HPS .4" W 'sOF I I ROOF 7 7 7lIJ.,� 1" PC s ' 6"VAC 1 /4 " " fs - - VENT e 1" �1 1 G ( 3"VII t © 3"VAC STAIRWELL CHWS ijl I!Ilb H�`�� its �� _..a,�-f- +-� 10" CHWR ,� rJ , Je " It 6M •,'1i�i• s s. "p ��_ --- flYVAC1!wi HWR ;:g 6"VAC "3"VAC 3/4 P''IN VALVE U ,,.imi �' 3 II Dva, U 'iii �c i 1 o . i s _HWS I Uo_;;,;1m1s::.a 3"VAC 3'y (I 1 :;y 1 . 1 rI�_/2" � r 1 /2" 3'V ct 3 3s 3''V-_. c' 1 1 i . 1 1 �� I to I� . . 1 1 I 1 E �2" `f M (PLUGGED), TYP 3/4" OIL WASTE 1 i i Ir — I iill ! ' i ur — . � OO �s © 0 _ DRAIN (TYP) _ 1 MEZZANINE 4 PHASE I CHWS/R VALVE ASSEMBLY, SEE 1 4"CA-04). I. 1.03"LPS-N cyfr3nCW i 1" W-.` M1M500 (TYP) 9-1.03-M501 GOOSENECK WITH SCREENED OPENING-. 1" CHW 10"CHWS SURGE 2"CW TANK - DRAIN EXISTING FUNNEL DRAIN 6"VTR 6"V PHASE II SECTIO\ SCALE: 1/4' = —0" gl► RELOCATED FUNNEL DRAIN 1 "CHWR 1"CHWS " 3/4" OIL WASTE DRAIN (TYP) E M1M94 M1M500 CHWS & CHWR "HPS 3"CA 6"VAC 3"VAC 3"V 3" FLEX CONN I 4" HWR 10" CHWR 10" CHWS R.25 ROOF CHWS/R VALVE ASSEMBLY, SEE 3/4" DRAIN VALVE (PLUGGED) MEZZANINE EWH-1 SECTION SCALE: 1/4' = 1'- FUNNEL DRAIN 2" WASTE OIL DRAIN DOWN TO USED OIL COLLECTION DRUM ft SYM REVISION BY APPROVED DATE SYM REVISION BY APPROVED DATE CHILLED WATER'•UPGRADE DCA--9-'08--021 COFFMAN • M.-SOTURA - 10.22.08.. B CHILLED WATER UPGRADE ADDENDUM #2 DCA-9-08-021 COFFMAN M. SOTURA 01.07.09 C 7425-10 REMOVE HUSTLE PILLARS & RAILS 10432438 M.WONG RWS 04.22.10 D VACUUM PUMP UPGRADES W3383113 WH THH 10.23.15 ACCEPTABILITY THIS DESIGN AND/OR SPECIFICATION IS APPROVED G M1M94 M1M500 DRAWN S.RUDELL DATE 06.05.07 (TYP) M1M500 9-103-M501 FOR CLARITY, SEE 2 FOR CHWS/R PIPING CONNECTION. M 1 M500 TYPICAL CLEVIS . HANGER AND SEISMIC CABLE BRACING • CONNECTED TO ` STRUCTURE ABOVE. SEE SPECIFICATIONS FOR REQUIREMENTS. • EFRE\CE DRAWINGS 109-101-M1M94 MEZZANINE PIPING PLAN 109-101-M1 M501 MEZZANINE PLAN, SECTIONS & DETAILS CONS -RUCTION NOTES REVIEWED FOR CODE COMPLIANCE APPROVED JAN 0 4 2016 City of Tukwila BUILDING DIVISION ISSUED FOR CONSTRUCTION OCTOBER 23, 2015 :A9J915 2016 2' 0 4' RECEIVED CITY OF TUKWILA DEC 16 2015 PERMIT CENTER 16' SCALE: 1 /4"=1'-0" 3009 312th. Ave NE, Suite ioa. Bellevue WA 98004; 425.628.6aoo woadharbingeE com CHECKED SUBTITLE SECTIONS & DETAILS CURRENT REVISION W3383113 SYMBOL D DATE 10.23.15 APPROVED BY DEPT. DATE ENGINEER CHECKED APPROVED APPROVED TITLE MECHANICAL MASTER VACUUM PUMP UPGRADES BUILDING 9-101 COL.R-S'/22-22.5 SHEET MIM500 JOB NO. COMP NO. N ,17 a r47„. N 0 C 0 DEV. CENTER, WA DWG No. 09-101-M1M500 LEGEND 22.35 ROOF l� C LVC__ 4" HWR 14�Hws 22.5 Frt.4" VAC c.1"CA 22.75 22.9 �3"CW ROOF 14"CA WENT _rei1"PC STAIRWELL MEZZANINE e+415-+4f DRAIN r1"CW 6, T 9-1"HW EWH-1 l�n 2" CW 3" LPS X"COND. SURGE TANK COMP. AIR CONN.'S -2". CW VENT & DRAIN 3" LPS 4)4 VAC II 6" VAC ELEC. PANEL 1"CA C.A. TANK vl 3" LPS---1 • BFP Pc1-141 PRV Q FUNNEL DRAIN 3"CW-16 DRAINS MEZZANINE SECTION H SCALE: 1/4' = 1'-0" M1M94 M.1 M501 AHU-216 CHWRC-111(0 I Rpt CHWS I HWS I Is1-' -HI---__� III I -III I III I III J l11_--` =11f+� IV I I 1,, 0 /�---Fr , �, II (,v tz ii -1- Cr �--h—f ELEVATION MEZZA\ IE SUPPORT AREA AHU-216 CO\NECTION DIAGA SCALE: NONE 2 M1M94`M1M501 HWR CHWS/R VALVE ASSEMBLY, SEE CHWS/R VALVE ASSEMBLY, SEE E M1M94 M1M501 OS-103—M501 3"FLEX CONN (TYP) M1M94 M1M500 6" VAC 1 /2"CHWS/R FOR CONTINUATION SEE DWG. 9-101-M1M94 1/2"CHWS/R y r FOR CONTINUATION SEE DWG. 9-101-M1M94 3"V 6"VUPTOVTR 1/2"CHWS/R FOR CONTINUATION SEE DWG. 9-101-M1M94 RELOCATED FUNNEL DRAIN FLEX CONN (TYP) 1/2"CHWS/R FOR CONTINUATION SEE DWG. 9-101-M1M94 M1M501 09-103—M501 500 STAIRWELL FUNNEL DRAIN 3/4" WASTE OIL DRAIN 6"V UP TO VTR 3/4" WASTE OIL DRAIN 4"VTR 4" VAC 31/AC PHASE II 4 ISOLATION VALVE H MiM94 M1M501 1EZZANINE SUPPORT AREA VACUUM PIPING PARTIAL PLAN SCALE: ,/a•—r—o SYM REVISION APPROVED DATE REVISION BY APPROVED DATE EXISTING -CONDITIONS A VACUUM PUMP UPGRADES W3383113 WH THH 10.23.15 ACCEPTABILITY THIS DESIGN AND/OR SPECIFICATION IS APPROVED APPROVED BY DEPT. DATE DRAWN S.RUDELL CHECKED 22.25 22.3 22.35 22.5 M1M94 M1M500 4" VAC I DN 6" VAC II DN FOR CONT. SEE DWG. 9-101-1M145 VAC. RELIEF VALVE (TYP. 2) 22.75 1 M1M94 MSM501 P.99 1.52016 CW HW CHWS CHWR =HWS -HWR PC. A. V LPS PVAC. GENERAL DOMESTIC COLD WATER HOT WATER CHILLED WATER SUPPLY CHILLED WATER RETURN HEATING WATER SUPPLY HEATING WATER RETURN PUMPED CONDENSATE COMPRESSED AIR VENT LOW PRESSURE STEAM PROCESS VACUUM OTES 1. ROTARY VACUUM PUMP BUSCH SERIES R-5, MDL RCO 630,. 25HP, 480V, (TYP. 2) 2. EXTERNAL OIL COOLER, BUSCH, MODEL # OCM-2 (TYP. 2) REFREN 109-101-1M94 109-101-1M145 109=101-M1M94 109-101-M1 M500 CE DRAWINGS = 1ST FLOOR PIPING PLAN 1ST FLOOR PLUMBING PLAN MEZZANINE PIPING PLAN MEZZANINE PIPING PLAN, SECTIONS & DETAILS CONSHUCTI'ON NOTES PHASE POINT OF CONNECTION TO EXISTING. EXTEND CONCRETE PAD TO ACCOMMODATE VP-1 AND VP-2, SEE STRUCTURAL DRAWINGS. PHASE II 3. AFTER COMPLETION OF PHASE I AND SYSTEM IS UP AND RUNNING, WORK FOR PHASE II SHALL COMMENCE.. POINT OF. CONNECTION TO EXISTING. EXTEND CONCRETE PAD TO ACCOMMODATE . VP-3 AND VP-4, SEE STRUCTURAL DRAWINGS. REUSE EXISTING 3" FLEXIBLE CONNECTION AS REQUIRED (2 TYP). ISSUED FOR CONSTRUCTION OCTOBER 23, 2015 TE SUBTITLE 6.19.07 MEZZANINE PIPING PLAN, SECTIONS & DETAILS .REVIEWED FOR rCODE COMPLIANCE APPROVED JAN 0 4 2016 City of Tukwila BUILDING DIVISION 4' 2' 0 4' RECEIVED CITY OF TUKWILA DEC 16 2015 PERMIT CENTER 8' 16' SCALE: 1 /4"= 0" ENCINEER CHECKED APPROVED APPROVED TITLE VACUUM PUMP UPGRADES BUILDING 09-101 MECHANICAL MASTER P.25—R.25/23.3-22.9 DEV. CENTER, WA CURRENT REVISION SYMBOL W3383113 A SHEET MIM5OI JOB„ NO, 3oo9Intl Ave NE, Suit 100 'NeIIevue WA_90 woadharbingercom DATE 10.23.15 COMP NO. DWG NO. 09-101—M 1 M501 LEGEND 3"A DN SEE DWG. 1M136 (E)4"--\ (E)4'. VAC /rrrr///, +rrrr// v\\ \\ , / /`/, / rrrr, ,\r\/\r rrrr I /f// 1""---- 4"VAC, SEE CWM141 FOR CONTINUATION \ f /\/\r, `%�j�/ r,/rr \r�� \ram\ +/%%rr///•/%%% %%%%r%% r%%% i+ri�`i`ivr r`i\i`ivi\i`i`i`i`i\,\, ``\`v` i/:/ //: /`/- `/`/ r`////`/\/`/`7/\/`r\/`r`/`ivr`i`i /\i� \i`i`i�i�i`if\\ \:\!`r`!\r`!`r`!`i r f r f ii`i`i /`/` ` �i \i\i\/\/ \i\/ Q %/W/ :::: ;\/\rv/\/ \//\/\/ +//f/ rrrr /r/! 'XrN rrrr rr// !//! \\\\ \ \\\ //!/ rrr///,/ /\"\ i �j`j`j`/\ \\r \j`r`/• i !\j`j i \r`j\j`j/` \/ /\' \'rrrr rrrr. /// rrr, rrrr /r! rrrr //r \2/\/ ; % ,`r\,`, irram 1 2 /rrrrr/r, 2" tri i. /f\r`/v/`//////% %/%i%/%%/ri \\\\\\\\\\\ \v\\\\\\\ i /rrrr/rr/rrr %rrrrrrrrrr \/vr\/\/\r\! 1\i\i\ ,i / 2" CATWALK AREA PLA\ SCALE: 1 /8"=1'-0" UP TRHOUGH ROOF SEE DWG. RFM4AA FOR CON'T DOWN TO VACUUM PUMP SEE DWG. 1 M 136 FOR CON'T 2"VAC & 2"A DN TO MANIFOLDS IN WALL SEE TIFF DWGS. 1M136 109-101-4600—M12 & M16 EXISTING ROOF PE ETRATION 28 4" X 2834" 8"0 GALV. 26 GA. W/ PIPE INSULATION SEE NOTE I 2"VAC & 2"A DN TO MANIFOLDS IN WALL SEE TIFF DWGS. 1M136 109-101-4600—M12 & M16 B mr 1Sr" :AUG 15 2016 REVIEWED FOR CODE COMPLIANCE APPROVED JAN 0 4 20T6 City of Tukwila BUILDING DIVISION , RECEIVED CITY OF TUKWILA GENERAL NOTES 1" MIN. THICKNESS 'FIBER GLASS ' PIPE INSULATION, 25/50 FLAME/SMOKE RATING, THERMAL .CONDUCTIVITY OF 0.25 100T, ASTM E84, NFPA 255, UL723, THE JACKET WITH WHITE—KRAFT PAPER. BONDED TO :'ALUMINUM FOIL AND REINFORCED WITH . GLASS FIBERS. REFERENCE DRAWINGS CONSTRUCTION NOTES PROVIDE VACUUM . PIPING INDICATED. COORDINATE ROUTE WITH EXISTING CONDITION AT TRUSS LEVEL. CONNECT 4"VAC WITH WELDED TEE TO EXISTING 4"VAC AT TRUSS LEVEL.' PROCEED ONLY AFTER A VACUUM SYSTEM SHUTDOWN HAS BEEN SCHEDULED BY BOEING. „1„ ,A,,,,, ,7„, ,?,,,,,,,,(7 ,,,,, ,f, 1' T CWM110 CWM111 CWM112 WM113 CWM114 CWM115 c CWM116 CWM117 CWM118 DWM119 CWM120 CWM121 ;WM122 CWM123 CWM124 CWM125 CWM126 CWM127 DEC 16 2015 PERMIT CENTER ISSUED FOR CONSTRUCTION OCTOBER 23, 2015 KEY PLAN SCALE: NONE 4 0 8 16 SCALE: 1 /8 -0" 0 0 gooq 1 7fih five NE, 'Suite ZOO: 0 ellevue:WA;1Bo04 5628:6 voodharbingec corn SYM B REVISION BY APPROVED DATE SYM REVISION: BY APPROVED DATE 7425-10 • REMOVE . HUSTLE • PILLARS & RAILS 10432438 M.WONG RWS 04.22.10 VACUUM PUMP UPGRADES W3383113 WH THH 10.23.15 ACCEPTABILITY THIS DESIGN AND/OR SPECIFICATION IS APPROVED APPROVED BY DEPT. DATE DRAWN M.WONG DATE 04.09.10 CHECKED SUBTITLE CATWALK PLUMBING PLAN CURRENT REVISION W3383113 SYMBOL B DATE 10.23.15 ENGINEER. CHECKED APPROVED APPROVED MECHANICAL MASTER VACUUM PUMP UPGRADES BUILDING 9-101 COL. N—S/19-21 SHEET JOB NO. COMP NO. DEV. CENTER, WA DWG NO. 09-101—CWM 136 DABENOJA: 08 /18 / 15 11:55 LEGEND " \\\\\\\\\\\\\\\\\\\\\ I/\/•/if\ff\f\'•f\/\ft/•fifff,/•f\fifi' 4 L. VAC VAC A A ADD PIPE SPOOLS 3'-0" LONG, 2 PLACES FOR CONN TO EAST ANNEX ADDITION 4\ A VAC BALL VALVES AND BLIND FLANGES FOR FUTURE CONNECTION VAC - VAC C-) >8 I d' v 4" VAC I SEE DWG. 1M141 FOR CON'T, 2"VAC & 2"A DN TO MANIFOLDS IN WALL SEE DETAIL CWM141 M16 CWM141 4600-M16 11 n-r I 22 'AJ915 2D16 GENERAL NOTES CONSTRUCTION. NOTES PROVIDE VACUUM PIPING INDICATED. ROUTE OVER CATWALK AND SUPPORT PIPE WITH HANGERS ;AND• SEISMIC BRACING FROM ..STRUCTURE' ABOVE. COORDINATE WITH EXISTING CONDITION.: CONNECT 4"VAC . WITH WELDED TEE TO EXISTING 6"VAC MAIN AT TRUSS LEVEL. PROCEED ONLY AFTER A VACUUM SYSTEM SHUTDOWN HAS BEEN SCHEDULED BY BOEING. REFERENCE DRAWINGS i,, ,,... ..., rw Q 1., T i REVIEWED FOR CODE COMPLIANCE APPROVED JAN 0 4 2016 City of Tukwila BUILDING DIVISION RECEIVE CITY OF TUKWILA DEC 1 b 2015 PERMIT CENTER ISSUED FOR CONSTRUCTION OCTOBER 23.2O15. a O KEY PLAN SCALE: NONE 16 SCALE: 1/8 = 1'-0" 3OO9 with` Ave NE, Suite ioo, Bellevue .WA;98004 e I .. woodBarbmgercomm SYM REVISION BY APPROVED DATE SYM REVISION BY APPROVED DATE -.A._.. EXTEND -VACUUM II PIPING . M.WONG 09.25.14 B VACUUM PUMP UPGRADES W3383113 WH THH 10.23.15 ACCEPTABILITY THIS DESIGN AND/OR SPECIFICATION IS APPROVED APPROVED BY DEPT. DATE DRAWN EDDIE P. DUARTE DATE 09.23.14 CHECKED SUBTITLE CATWALK PLUMBING PLAN CURRENT REVISION SYMBOL DATE W3383113 B 10.23.15 ENGINEER CHECKED APPROVED APPROVED TITLE MECHANICAL MASTER VACUUM PUMP UPGRADES BUILDING 09-101 COL. N-S/21-22 DEV. CENTER, WA SHEET CWM141 JOB NO. COMP NO. DABENOJA: 07/27/15 15:4 DWG NO. 09-101-CWM141 LEGEND %TEC ;)i: P25 1 5 1 66 Z192x48 GRAVITY O.A. INTAKE TO GENERATOR ROOM 1ST FLR. O 60x • 0.A. INTAKE. TO SF 1 2?.25 2?.35 27.75 2 ANUS 15 2016 REVIEWED FOR CODE COMPLIANCE APPROVED • JAN 0.4 2016. City of Tukwila BUILDING DIVISION GENERAL \OTES 9-1,01.1—M1 H EQUIPMENT SCHEDULES REPLACE EXISTING EXHAUST FAN EF-3. r ,x, 7 :„.mia ,,,ii, T T RFM10 RFM11 RFM12 RFM13 RFM14: RFM55 C RFM16 .RFM17 RFM18 RFM19 RFM2O RFM21 --CI RFM22 RFM23 RFM24 RFM25 RFM26 RFM27 RFM28 RFM29 RFM30 RFM31 RFM32 RFM33 C C RFM34 RFM35 RFM36 RFM37 RFM38 2 RECEIVED CITY OF TUKWILA DEC 16 2015 PERMIT CENTER ISSUED FOR CONSTRUCTION OCTOBER 23... 2015 8 9-101.RF KEY PLAN 4 0 4 8 16 SCALE: 1/8 = -0" 0 21 '3000 with Ave NE,. L to too :B.eIlevue VVA 9& .4 425.6i11.6000 woodharbinger..com SYM REVISION APPROVED DATE REVISION BY APPROVED DATE REDRAWN.... KB/CH. 8.2.99 A. VACUUM PUMP UPGRADES W3383113 WH THH 10.23.15 ACCEPTABILITY. THIS DESIGN AND/OR SPECIFICATION IS APPROVED APPROVED BY DEPT. DATE DRAWN DATE CHECKED SUBTITLE HVAC ROOF PLAN CURRENT REVISION • W3383113 SYMBOL A DATE 10.23.15 ENGINEER CHECKED APPROVED APPROVED VACUUM PUMP UPGRADES BUILDING 9-101.RF SHEET RFM44 JOB NO. COMP NO. MECHANICAL MASTER COL.. P-F/22-23 DEV. CENTER, WA DWG NO. 09-101-RFM44 0 CV DABENOJA: 08/18/15 • 3"DRAIN LINE .DN TO NEAREST DRAIN LINE- 2" SUMP DRAIN CONN TO 3" DRAIN LINE 2" MAKE UP WATER --fit 3" DRAIN LINE —1321V7- 4 8 CWR TO BELOW 192x48 GRAVITY 0.A. INTAKE TO GENERATOR ROOM 1ST FLOOR &"CWS TO TOWER A. FM44 2" SUMP DRAIN TO 3" DRAIN LINE 2" MAKE UP WATER 3" DRAIN . LINE 8"CWS FROM BELOW 2"M/U WATER TO 1" SOLENOID VALVE 3" SUMP 0/F CONN TO 3" DRAIN LINE 8"CWS FROM BELOW 2"M/U WATER TO 1" SOLENOID VALVE 3" SUMP 0/F CONN TO 3" DRAIN LINE L. FM44 8"CWR TO BELOW 6"CWS TO TOWER 8"CWS FROM BELOW 2"M/U WATER TO 1" SOLENOID VALVE ---3" SUMP 0/F SEE DETAIL A CWR TO BELOW 2" MAKE UP WATER FROM BELOW TO SERVE THREE do(10184 1ki4 RS 2" SUMP DRAIN TO 3" DRAIN LINE R/-25 SEE RFM4AA FOR CONTINUATION 60x60 OA INTAKE TO SF-1. 12"CHWS/R PIPE (WELDED) R.6 j_-12"CkWS DN THRU ROOF EXh.,..---24x24 CURB FOR EF-3 ,-- -t— - 1122.25 �`27.35 GOOSENECK FITTING WITH SCREENED OPENING -\1225C 122.75 PA 15 NUSS LEGEND HPC HPS CONDENSATE STEAM (HIGH PRESSURE) STEAM SUPPLY (HIGH PRESSURE 125, 250 PSIG) STM STEAM SUPPLY HWS HEATING WATER SUPPLY HWR HEATING WATER RETURN CHWR H— CHILLED ,WATER RETURN CHWS CHILLED WATER SUPPLY COND -- CONDENSATE — P COND- PUMPED CONDENSATE GENERAL \OTES ALL WATER AND CONDENSER WATER PIPEWORK FITTINGS AND VALVES SHALL BE ELECTRICALLY HEAT TRACED, INSULATED AND WEATHERPROOFED WITH SHEET METAL JACKETS FROM 6" BELOW ROOF DECK LEVEL TO CONNECT TERMINATION AT EACH COOLING TOWER. PIPE INSULATION SHALL BE FOAM. GLASS WITH ALUMINUM JACKET IN EXTERIOR SPACES AND FIGERGLASS ASJ/SSL FOR INTERIOR SPACES:: CONSTRUCTION COTES REVIE,VED FOR-`" CODE COMPLIANCE APPROVED JAN042016 City of Tukwila BUILDING DIVISION • RECEIVED CITY OF TUKWILA DEC 16 2015 PERMIT CENTER ISSUED FOR CONSTRUCTION: OCTOBER 23,2015 UTILIZE EXISTING 4" ROOF PENETRATION AT THIS LOCATION. ENLARGE TO ACCOMMODATE NEW 6"VTR. SEE STRUCTURAL DWG 9-102.2-S503 FOR ROOF PIPE PENETRATION DETAIL. A) (D) (J Ja I' T I' (1) _r; �� 1M60 1M61 1M62 1M63 1M64 1M65 --tJ 1M71 1M66 1M67 1M68 1M69 1M70 1M72 •1M73 1M74 tM75 1M76 1M77 it 0 ,9 1M78 1M79 1M80 1M81 1M82. 1M83 1M84 1M85 1M86 1M87 1M88 zc --C —© 1M89 1M90 1M91 1M92 1M93 R 94 1M95 1M96 5 4' 2' 0 8' 16' SCALE: 1 /4"=1 3009; with Ave ,NE, Suite icQG. :Bellevue WA:98004 woodharb'ingercom REVISION APPROVED DATE SYM, REVISION BY APPROVED DATE REDRAWN.. KB/CH 8.2.99 CHILLED WATER UPGRADE DCA-9-08-021 COFFMAN M. SOTURA 10.22.08 CHILLED WATER UPGRADE ADDENDUM #2 DCA-9-08-021 COFFMAN M. SOTURA. 01.07.09 VACUUM PUMP UPGRADES W3383113 WH THH 10.23.15 ACCEPTABILITY THIS DESIGN AND/OR SPECIFICATION IS APPROVED APPROVED BY DEPT. DATE DRAWN CHECKED DATE SUBTITLE PIPING ROOF PLAN CURRENT REVISION SYMBOL W3383113 C DATE 10.23.15 ENGINEER CHECKED APPROVED APPROVED MECHANICAL MASTER VACUUM PUMP UPGRADES BUILDING 9-101.RF COL. P-F/22-23 SHEET RFM94 JOB NO. COMP NO.. DWG NO. D.C. 9-101-RFM94 i- EXISTING CONTROL PANEL AND NETWORK BETWEEN BUILDINGS VAC I%I VAC VAC VAC 8" VAC VAC VAC 8" 1 LEGEND l --I L CONNECT TO BOEING ETHERNET NETWORK 8"VAC, TO BLDG 9-101 OUTLETS ROOF EXISTING QUADRUPLEX CONTROL PANEL TO AUTOCLAVE VACUUM SYSTEM 16"V`R s�, 6"V - EXISTING CONTROL PANEL AND NETWORK BETWEEN BUILDINGS -CONNECT TO BOEING ETHERNET NETWORK ROOF BACNET COMMUNICATIONS TO EMCS. SEE POINT MATRIX 6"VrR - EXISTING CONTROL PANEL AND NETWORK BETWEEN BUILDINGS -CONNECT TO BOEING ETHERNET NETWORK L_ • ALLEN BRADLEY MICROLOGIX 1400 MASTER CONTROL PANEL FOR 10 VACUUM PUMP CONTROL VP-5 MOTOR CONTROL PANEL WITH PLC VP-1 MOTOR CONTROL PANEL WITH PLC HOA ff VAC 1 --I i _J OFCI - L J ff VAC 0 Cr) CC -*1 1 VP-6 MOTOR CONTROL PANEL WITH. PLC HOA I -I_ J BACNET COMMUNICATIONS TO -EMCS. SEE POINT MATRIX ROOF VP-2 MOTOR CONTROL PANEL WITH PLC 6"VTR CI1 CC Z V 1 1 HOA J -> L I/ P3 6"VAC TO BLDG 9-101 OUTLETS VP-3 MOTOR CONTROL PANEL WITH PLC HOA VAC VAC 1 C/1 CC 1 1 6" 9-102 VACUUM SYSTEM l // 6" • _J VP-4 HOA MOTOR CONTROL PANEL WITH PLC I- L J 9-103 VACUUM SYSTEM VACUUM PUMP EMCS POINTS MATRIX EQUIPMENT/ DESCRIPTION FUNCTION/ MEASUREMENT DEVICE TAG DEVICE TYPE I/O TYPE ALARM REMARKS [3] VP-x [1] HAND/AUTO POSITION VPx.SW SW DI FROM EQUIPMENT SWITCH VP-x OIL RETURN TEMPERATURE VPx.ORTT TT Al VP-x OIL SUPPLY TEMPERATURE VPx.OSTT TT Al VP-x CHILLED WATER VALVE VPx.MOD MOD AO [5] SETPOINT = 195 DEG F @ ORTT VP-x HOA SWITCH POSITION VPX.HOA.SW SW DI USE BACNET POINT IF AVAILABLE VP-x STATUS - [2] VP-x COMMON ALARM - [2] [8] VP-x PUMP START/STOP - [2j . FROM MASTER PLC TO PUMP VP-x EXHAUST TEMPERATURE - [2] VP-x RUN TIME - CALC CALC AND DISPLAY ON GRAPHIC VP NUMBER OF PUMPS IN AUTO - CALC CALC AND DISPLAY ON GRAPHIC B101 B101VACUUM LEVEL - [2] [4] B102 B102 VACUUM LEVEL - [2] B103 B103 VACUUM LEVEL - [2] [7] EF-3 B101 FAN START/STOP EF3.SS SS DO START AT 80 F, STOP AT 72 F EF-3 B101 FAN STATUS EF3.CS CS DO EF-3 B101 EF-3 DAMPER EF3.D.MOD MOD DO [6] EF-3 SPACE TEMPERATURE EF3.T T Al NOTES: [1] x=1 THRU 6 FOR EACH VACUUM PUMP, PLUS VP- 7 THRU 10 AS REQUIRED PER NOTE [7] [2] VIA BACNET FROM VENDOR PANEL. COORDINATE EXACT POINTS AVAILABLE WITH VENDER DURING INSTALLATION. [3] DISPLAY ALL POINTS ON GRAPHIC (MATCH VACUUM PUMP ..PLC GRAPHICS AS CLOSE AS POSSIBLE) [4] DISPLAY UNITS IN BOTH INCHES OF MERCURY AND TORR [5] ALARM HIGH = 220 DEG F [6] OPEN DAMPER 2 DEG F LOWER THAN EF-3 FAN STOP SETPOINT. (INITIALLY, OPEN AS TEMP RISES ABOVE 70 F). [7] SIEMENS TO INVESTIGATE AND CONVERT EXISTING BUILDING 103 POINTS TO EMCS. [8] DISPLAY ALARM CAUSE IF AVAILABLE VIA BACNET. VAC J C.) Q ROOF EF-3 n CONNECT NEW WELDOLET AND INSTALL OFCI PT If ACCUMULATOR 4" VAC TO BLDG 9-101 OUTLETS /el VAC VAC 2 XAv-- 6"VAC ACCUMULATOR 0-- c> 9-101 ANNEX VACUUM SYSTEM IDS 15 2016 REVIEWED FOR CODE COMPLIANCE APPROVED Jai', 0 4 2015 City of Tukwila BUILDING DIVISION RECEIVED CITY OF TUKWILA DEC 16 2015 PERMIT CENTER CS. MOD OFCI OS OR PT TT SS SW YS 0 EMCS DIRECT WIRED POINT CURRENT CENSOR SWITCH MODULATE OWNER FURNISHED CONTRACTOR INSTALLED OIL RETURN OIL SUPPLY PRESSURE TRANSMITTER TEMPERATURE TRANSMITTER START STOP SWITCH RUN STATUS SPACE REMPERATURE SENSOR MOTOR STARTER GENRAL NOTES EMCS PANEL (VACUUM . SYSTEM GRAPHICAL INTERFACE, AND POINT OF CONNECTION TO BOEING EMCS ETHERNET NET WORK). EMCS GRAPHICS TO DISPLAY DATA FROM ALL 10 VACUUM ,PUMPS: 2 > VALVE MUST REMAIN OPEN FOR PROPER SEQUENCE OF VACUUM PUMPS. REFERENCE DRAWINGS CONSTRUCTION NOTES ISSUED FOR CONSTRUCTION OCTOBER 23, 2015 EXISTING CONTROL VALVE. TO REMAIN. CONTROL SEQUENCE UNKNOWN. OWNER FURNISHED CONTRACTOR INSTALLED. POINT OF CONNECTION. CONNECT EMCS POINTS TO EXISTING MOTOR STARTER. REPLACE;. PLC PROCESSOR WITH OFCI PROCESSOR PER INSTRUCTIONS FROM BUSCH. INSTALL AND WIRE THE OFCI BACKNET GATEWAY PER DIAGRAM AND INSTRUCTIONS FROM BUSCH. A MINIMUM OF (6) . OPERATIONAL VACUUM PUMPS SHALL BE AVAILABLE AT ALL TIMES. WHEN VP-1 AND VP-2 ARE COMMISSIONED FOR OPERATION ON LOCAL CONTROLS, PHASE 2 WORK CAN BEGIN. PHASE 1 AND PHASE 2 WORK. IS FURTHER . DESCRIBED ON SHEET M 1 M501 R. WHEN VP-3 AND VP-.4 ARE COMMISSIONED FOR OPERATION ON LOCAL CONTROLS, AND VP-1 AND VP-2 ARE ALSO OPERATIONAL, WORK IN B9-103 CAN BEGIN. WORK IN B9-102 MUST BE COORDINATED WITH WORK IN 9-101 ANNEX AND 9-103 TO MAINTAIN A MINIMUM OF (6) OPERATIONAL VACUUM PUMPS. COORDINATE CONTROLS SCOPE WITH SIEMENS. CONTACT DON KELLY 425-507-4452. SCHEDULE WORK DURING VACUUM SYSTEM SHUTDOWN SCHEDULED PER NOTE ON SHEET CWM141. Ltzth: Ave NE, too re WA 98004 ,425.628.6000 woodharbinger.com. 300 SYM. REVISION APPROVED DATE REVISION BY APPROVED DATE -VACUUM- PUMP. UPGRADES W3383113- WH.... 10,23.15 ACCEPTABILITY THIS DESIGN AND/OR SPECIFICATION IS APPROVED DRAWN D. ABENOJA DATE 08.07.15 CHECKED SUBTITLE CONTROL DIAGRAM AND EMCS POINT MATRIX CURRENT REVISION SYMBOL W3383113 DATE 10.23.15 APPROVED BY DEPT. DATE ENGINEER T. HOECH 08.07.15 CHECKED APPROVED M. HAQ APPROVED 08.07.15 TITLE MECHANICAL MASTER VACUUM PUMP UPGRADES BUILDING 9-101 1 DEV. CENTER, WA SHEET 1300 JOB: NO. 14786 COMP NO. DABENOJA: 09 /02 / 15 09:09 DWG NO. 9-101-1300 CHILLER (CH.) SCHEDULE MARK NUMBER TYPE CAPACITY TONS EVAPORATOR CONDENSER POWER CONSUMPTION KW/TON COMPRESSOR MOTORS MAXIMUM OPERATING WEIGHT (LBS) REMARKS FLOW GPM EWT 'F LWT 'F NO. PASS MAX PD ® ,FLOW FT WTR FOULING FACTOR REFRIG. FLOW GPM EWT •F LWT `F MAX PD ® FLOW FT WTR FOULING . FACTOR % CAPACITY POWER CARACTERISTICS 5 10 20 40 60 80 100 MAX. KW VOLTS PHASE HZ CH-1 CENTRIFUGAL 200 512 479 38 2 23.1 .0005 R-123 600 82 91.9 18.7 .0005 480 3 60 TRANE CENTRAVAC MODEL #CVHE 020 CH-2 CENTRIFUGAL 200 512 47.9 38 2 23.1 -.0005 -= R-123 = 600 82 91.9 18.7 .0005 480 3 60 TRANE CENTRAVAC MODEL #CVHE 020 CH-3 CENTRIFUGAL 500 1221 48 38 2 29.9 .0005 R-11 1500 82 92 24.1 .0005 .71 361 480 3 60 TRANE CENTRAVAC MODEL #CVHE 050 1 PUMP SCHEDULE MARK NUMBER SERVICE FLUID TEMP 'F CAPACITY SIZE PERFORMACE MOTOR PUMP TYPE REMARKS GPM TDH SUCT DISC EFF NPSHR DRIVE HP RPM VOLTS PHASE HERTZ P-1 CH-1 PRIMARY CHILLED WTR WATER 38 512 35' 3 2 1/2 - - FLEX CPLG- 7 1/2 1,750 480 3 60 CENTRIFUGAL PACO MODEL #4070-7 TYPE L END SUCTION SIZE 4x5x7" IMPELLER-3090 BRONZE FITTEa P-2 CH-2 PRIMARY CHILLED WTR WATER 38 512 42' 3 2 1/2 - - FLEX CPLG 7 1/2 1,750 480 3 60 CENTRIFUGAL MPE LMERD o9eOB ONZE FlTTEE END SUCTION SIZE 4x5x7" P-3 CH-3 PRIMARY CHILLED WTR WATER 38 1221 42'3 2 - - FLEX CPLG 20 1,750 480 3 60 CENTRIFUGAL PAMODEL � BRCOONZE FITTE 6095-1 TYPE LF, END SUCTION SIZE 6x8x9.5" P-4 CH -1CONDENSER WATER WATER 92 600 46' 3 2 - - FLEX CPLG 10 1,750 480 3 60 CENTRIFUGAL PACO MODEL #4095-5 TYPE LF, END SUCTION, BRONZE FITTED P-5 CH-2 CONDENSER WATER WATER 92 600 46' 4 3 - - FLEX CPLG 10 1,750 480 3 60 CENTRIFUGAL PACO MODEL #4095-5 TYPE LF, END SUCTION, BRONZE FITTED P-6 CH-3 CONDENSER WATER WATER 92 1500 46' 4 3 - - FLEX CPLG 25 1,750 480 3 60 CENTRIFUGAL PACO MODEL #4070-7 TYPE LF, END SUCTION, BRONZE FITTED P-7A&B SECONDARY CHILLED WTR WATER 38 1536 90 4 3 - - FLEX CPLG 50 1,750 480 3 60 CENTRIFUGAL PACO MODEL 6012-3 P-9 CH-3 PRIMARY CHILLED WTR WATER 11 1221 42' - 4 - - FLEX CPLG 20 1,750 480 3 60 CENTRIFUGAL BRQNZEOFITTED6095-1 TYPE LF, END SUCTION SIZE 6x8x9.5p (BACK-UP) P-10 CH -3 CONDENSER WATER WATER 92 1500 46' - 4 - - FLEX CPLG 25 1,750 480 3 60 CENTRIFUGAL BRONZE°FITTE4070-7 TYPE LF, END SUCTION SIZE 4 x5 x7 (BACK-UPS COOLING TOWER (CT) SCHEDULE MARK NUMBER GPM EWT F LWT F AMBIENT AIR FANS SUMP HEATER REMARKS •F DB •F WB NO. HP VOLTS PHASE HERTZ NO. KW VOLTS PHASE HERTZ CT-1 600 92 82 - 72 1 30 480 3 60 2 3 460 3 60 BAC MODEL VTO-176 OR (SN 97213671) CT-2 600 92 82 - 72 1 30 480 3 60 2 3 460 3 60 BAC MODEL VTO-176 OR (SN 97213661) CT-3 1500 92 82 - 72 1 60 460 3 60 1 7 460 3 60 LLEEVCE I M CONTROL KGg AND VARIABLEGFREQUEKCYT DRIVETI (S D U12660501 MAD) T., ELEC. PAN HEATER, ELEC. WTR CHEMICAL FEED POT (CFP) SCHEDULE - MARK NUMBER LOCATION SERVICE CAPACITY GALLONS MAX. WORKING PRESS. (PSIG) INLET/ OUTLET OVERALL DIMENSION (INCHES) APPROX. WEIGHT LBS. (OPERATING) REMARKS VESSEL COMPRESSION (CPT) TANK SCHEDULE. ....MARK NUMBER SERVICE - CAPACITY GALLONS DIAMETER , ` xLENGTH PRESS. PSIG CODE STAMP REMARKS TANK VOL. ACCEPTANCE VOL DESIGN WORK `ET=1 CHILLED WTR 120 GAL 120 GAL ' 125 30 ASME BELL & GOSSEfT, OR APPROVED .PRESSURIZED TANK VACUUM PUMP SCHEDULE MARK NUMBER LOCATION TYPE SERVICE CONDITIONS UNIT CONDITIONS MOTOR REMARKS FLUID INLET TEMP F ELEV FT CAPACITY ACFM VACUUM INCHES HG DRIVE TYPE SPEED HP VOLTS PH CYCLE VAC-5 9-102 ROTARY VANE AIR 70 0 455 29.9 DIRECT 1150 25 460 3 60 [1] VAC-6 9-102 ROTARY VANE AIR 70 0 455 29.9 DIRECT 1150 25 460 3 60 [1] REMARKS [1] BUSCH R 5 SERIES WITH DISCONNECT, STARTER, & CONTROLS. SYM A. B REVISION BY APPROVED DATE SYM REVISION BY APPROVED DATE INSTALL COOLING TOWER CT-3 VACUUM PUMP UPGRADES J#703542-00 W3383113 CH WH., THH 8.13.01 10.23.15 ACCEPTABILITY THIS DESIGN AND/OR SPECIFICATION IS APPROVED APPROVED BY DEPT. DATE DRAWN CH LEGE \D GENERAL NOTES REFERENCE DRAWINGS 'A 15 2016 REVIEWED FOR - CODE COMPLIANCE APPROVED JAN 0 4 2016 City of Tukwila BUILDING DIVISION ISSUED FOR CONSTRUCTION OCTOBER 23, 2015 RECEIVED CITY OF TUKWILA DEC 1 5 2015 PERMIT CENTER 3009 oath Ave NE,. Suite um .0illevue WA 96004 woodharbingertom DATE 07.20.01. CHECKED SUBTITLE EQUIPMENT LIST SCHEDULE CURRENT REVISION W3383113 SYMBOL DATE 10.23.15 ENGINEER CHECKED APPROVED APPROVED. MECHANICAL MASTER VACUUM PUMP UPGRADES BUILDING 9-102 SHEET 1A JOB NO. J#703542-00 COMP NO. SOU{RESR: 9/9/2005 9:24:07 AM DWG NO. D.C. 9 102-1 MA LEGEND a j 4"VAC (E)10"V UP TO VTR i • L___J 6" • OUSEKEEPING PAD 0 REMAIN (TYP) CUUM RECIEVER AC DN LJ Ir 8" VAC ACCUMULATORS 20.4 20.65 9 0.3 0.6 N 21.9 'AO 15 2016 GEN ERAL NOTES REFERENCE DRAWINGS CONSTRUCTION COTES REMOVE EXIST CHWS/R PIPING AND ASSOCIATED DEVICES BACK TO 6" ABOVE FINISHED FLOOR. REMOVE VACUUM PIPING BACK TO ELBOW AT VACUUM RECEIVER CONNECTION. REMOVE AND SURPLUS VACUUM PUMPS INDICATED. COORDINATE WITH BOEING ENGINEER FOR STORAGE AND SAFEKEEPING. REMOVE 3"V BACK TO VACUUM PUMP CONNECTION. PATCH WALL TO MATCH EXISTING. REVIEWED FOR CODE COMPLIANCE APPROVED JA14 0 4 2016 City of Tukwila BUILDING DIVISION 84 0 4 ISSUED FOR CONSTRUCTION OCTOBER23.2015 RECEIVED CITY OF TUKWILA DEC 1 6 2015 PERMIT CENTER 8 16 SCALE: 1/8 = 1'-0" 3ODg with Ave NE, 'Mite xppi. ,Bell.evue;WA98 5 621140OQ • WOGdharbin get rnm REVISION APPROVED DATE REVISION BY APPROVED DATE REPLACE, VACUUM -PUMP J. 527368-01 M.WONG VACUUM PUMP UPGRADES W3383113 WH THH 10.23.15 ACCEPTABILITY THIS DESIGN AND/OR SPECIFICATION IS APPROVED APPROVED BY DEPT. DATE DRAWN DATE CHECKED SUBTITLE PROCESS PIPING PLAN CURRENT REVISION W3383113 SYMBOL DATE 10.23.15 ENGINEER CHECKED APPROVED APPROVED TITLE VACUUM PUMP UPGRADES BUILDING 9-102.2 SHEET 2M210R JOB NO. COMP NO. cn N. a co • a 0 MECHANICAL MASTER ALL DEV. CENTER, WA DWG No. 9-102-2M210R LEGEND SEE ENLARGED PLAN (E) CONC PAD (TYP) VAC ACCUMULATOR ABV$VE L___J 6" E0.65 VAC ACCUMULATORS 0.9 FLOOR PLAN SCALE: 1/8" = 1'-0" 21.3 2 N 0.9 SYM REVISION BY APPROVED DATE SYM REVISION BY APPROVED DATE A , ..REPLACE VACUUM - PUMP _....... J#527368 -01 M.WONG B VACUUM PUMP UPGRADES W3383113 WH THH 10.23.15 ACCEPTABILITY THIS DESIGN AND/OR SPECIFICATION IS APPROVED APPROVED BY DEPT. DATE DRAWN GENERAL NOTES REFERENCE DRAWINGS CONSTRUCTION NOTES 'AO 15 21116 ISSUED FOR CONSTRUCTION OCTOBER 23, 2015 EXTEND CONCRETE PAD TO ACCOMMODATE VACUUM PUMP (TYP). SEE STRUC DRAWINGS. REVIEWED FOR--- CODE COMPLIANCE APPROVED JAN 0 4 2016 City of Tukwila BUILDING DIVISION 8 4 0 4 RECEIVED CITY OF TUKWILA DEC 1 6 2015 PERMIT CENTER 8 16 SCALE: 1/8 = —On :3oa9 Ave ,NE, 'SW Ito,: Bellevue WA 98004, ,425.628.6aoo woadharbinger.corn DATE CHECKED INUTAttK CHECKED SUBTITLE PROCESS PIPING PLAN CURRENT REVISION W3383113 SYMBOL B DATE 10.23.15 APPROVED APPROVED TITLE MECHANICAL MASTER VACUUM PUMP UPGRADES BUILDING 9-102.2 ALL SHEET 2M210 JOB NO. COMP NO. DEV. CENTER, WA DWG NO. 9-102-2M210 WONGK: 03/14/03 09:31 LEGEND COOLI G I TOW R • ' • VAPOR VENT VAPOR n VENT VTR • COOLING TOWER L _ _ _ 02 VTR 2" VTR °• o GOOSENECK FITTING WITH SCREENED OPENING r - COOLING TOWER 30"0 INLET DUCT H LTER. W. 4 10 R VAPOR VENT • - 7 ROOF I EXHAUST I CFAN L _J r —ROOF 1 I EXHAUST I I L FAN_ _1 11111111111111•1111•MMIW ROOF EXHAUST FAN_ j 41111111111111111•11111IIIIIIIIIP UNIT --14-"0 OPENING HEATER FOR VAPORIZER ri ROOF I EXHAUST II LLJ 1 62"0 RECIRCULATIO DUCT 0-0 1 I EXHAUST I L FAN_ j I ROOF I HATC H COOLING TOWER E0.4 0.65 21.3 2.6 GENERAL NOTES SEE STRUCTURAL DWG 9-101—S679 FOR ROOF PIPE PENETRATION DETAIL. CONSTRUCTION \ OTES ISSUED FOR CONSTRUCTION OCTOBER 23 2015 .013 16 2816 REVIEWED FOR CODE COMPLIANCE APPROVED .11\14 0 4 2516 City of Tukwila RyILDING DIVISION 4---6 • 8 RECEIVED CITY OF TUKWILA DEC 1 6 2015 PERMIT CENTER 16 SCALE: 1/8 = V-0" 3o09 ugh Ave NE, Sliite ioo BeIlevue WA 98004 425.6it0000 woodharbinger,com SYM REVISION BY APPROVED DATE SYM REVISION BY APPROVED DATE EXISTING CONDITIONS - A VACUUM PUMP UPGRADES W3383113 WH THH 10.23.15 ACCEPTABILITY THIS DESIGN AND/OR SPECIFICATION IS APPROVED APPROVED BY DEPT. DATE DRAWN DATE CHECKED ENGINEER CHECKED SUBTITLE ROOF PLAN CURRENT REVISION W3383113 SYMBOL A DATE 10.23.15 APPROVED APPROVED TITLE MECHANICAL MASTER VACUUM PUMP UPGRADES BUILDING 9-102.2 PA-BB/20.4-21.9 DEV. CENTER, WA SHEET RFM10 JOB NO. COMP NO, DWG NO. 09-102-RFM10 CPECK: 8/19/2015 UNISTRUT SLEEPERS ® 4' O.C. 30" X 36" +- ACCESS DOOR CONCRETE COVER 4 l LEGEND J d 4 r. Q 4 dQ B—LINE #B760-22A BEAM CLAMP, BOTH ENDS B—LINE4 B-24a DOYBLE CHANNEL. SPANS ROOF PURLINS 6" DRYER EXH. 18 GA..GALV. 6" CA FROM DRYER SCH 40 BMI 6" CA FROM DRYER SCH 40 BMI ROLL ELBOW 45° TO OFFSET AROUND FIRE RISER & TO LINE PIPING AND DUCT RUNS TO THE AIR DRYER CONNECTIONS LOCATED ABOUT THE UNITS CENTERLINE (3) SECTION A SCALE: 1 /2"=1'-0" 109-102-4101-M2 M503 3/4" WASTE OIL DRAIN (TYP) EXIST. CONC. PAD (TYP) EXIST. FUNNEL DRAIN (TYP) EXIST CHWS/R FROM SOURCE B—LINE #B-24 CANNEL HELD TO BEAM W/#B441-2 BEAM CLAMPS, BOTH ENDS GOOSENECK WITH SCREENED OPENING ..ID -CHWS VACUUM RECIEVER EXIST CHWS/R FROM SOURCE SECTION t SCALE: 1/2"=1:'-0" III IIIIL 2" OIL DRAIN 4. • 4 l PIGGYBACK FLOAT SWITCH 1NVEL. 4.60' BELL & GOSSETT SS0311ATF SUMP PUMP 17 GPM © 17 FT BALLAST 2" OIL DRAIN : TO USED OIL COLLECTION DRUM 4'-6I' DIA M512 M503 'AIifi 12016 REVIEWED FOR CODE COMPLIANCE APPROVED JAW 0 4 2015 City of Tukwila BUILDING DIVISION GENERAL NOTES REFERENCE DRAWINGS CONSTRUCTION COTES EXTEND CONCRETE PAD TO ACCOMMODATE VACUUM PUMP, SEE STRUC DRAWINGS (TYP).. POINT OF CONNECTION TO EXISTING. RECONFIGURE EXISTING DRAIN LINE TO ACCOMMODATE NEW VACUUM PIPING. CONNECT 1 /2"CHWSR TO EXISTING AT 6" MINIMUM ABOVE FINISHED FLOOR. COORDINATE VENT ROUTE WITH EXISTING CONDITION. PROVIDE 90' ELBOW TO ACCOMMODATE VACUUM FILTER INLET CONFIGURATION. CONTROL PANEL FOR VP-5 NOT SHOWN FOR CLARITY. SEE DWG 9-102-M512 FOR LOCATION. SEE. STRUCTURAL DWG 9-101-S679 FOR ROOF PIPE PENETRATION DETAIL. RECEIVED CITY OF TUKWILA DEC 1 6 205 PERMIT CENTER ISSUED FOR CONSTRUCTION OCTOBER2312O15 2' 1' 0 2' SCALE: 1 /2"=1'-0" 3009.Ltzth Ave NE, Suite 7ioo: Bellevue. WA 98004, 42 628,6000. woodharbinger com SYM REVISION BY APPROVED DATE. SYM REVISION BY APPROVED DATE INSTALL-. SUMP -PUMP 57608500 HARR _.. RWS 08/20/07 B VACUUM PUMP UPGRADES W3383113 WH THH 10.23.15 • ACCEPTABILITY D.R.CHES I ERFIEL 12/21 /93 SUBTITLE THIS DESIGN AND/OR CHECKED SPECIFICATION IS APPROVED APPROVED BY DEPT. DATE ENGINEER CHECKED R.W.SQUIRES APPROVED E.CARRIGAN APPROVED 12/21/93 12/21/93 TITLE SECTIONS CURRENT REVISION W3383113 SYMBOL DATE 10.23.15 MECHANICAL MASTER VACUUM PUMP UPGRADES BUILDING 9-102 DEV. CENTER, WA SHEET M503 JOB NO. 57608500 COMP NO. DWG NO. 9-102-M503 DABENOJA: 09 /30 / 15 10:27 3/4" WASTE OIL DRAIN (TYP) EXIST. FUNNEL DRAIN (TYP) EXIST. CONC. PAD (TYP) 3 FLEXIBLE CONN. (TYP) (E) PIPE RISERS LOWER LEVEL CHWS/R VALVE ASSEMBLY, SEE (TYP) M512 09-103—M501 -20.65 ENLARGED PLAN 3"VAC FILTER 1 SCALE: 1 /2"=1'-0" 2M210 M512 (E) PIPE RISERS EXIST. VACUUM ACCUMULATOR (E) PIPE. RISERS p T 3"V DN 3"V 6"VUPTOVTR UPPER LEVEL #7-3"V T DN 6"VAC DN 6"VAC CO0.65 .m9 15 2016 GENERAL NOTES PROVIDE 3/4" PLUGGED DRAIN VALVE AT BOTTOM B01T0M OF TEE. REFERENCE DRAWINGS C0NSTRUCTION NOTES ISSUED FOR CONSTRUCTION OCTOBER 23,2015 EXTEND CONCRETE PAD TO ACCOMMODATE VACUUM PUMP, SEE STRUC DRAWINGS. (TYP). POINT OF CONNECTION TO EXISTING. 1/2"CHWS/R DOWN, CONNECT TO EXISTING AT 6" MINIMUM ABOVE FINISHED FLOOR. PROVIDE 90' ELBOWS TO ACCOMMODATE VACUUM FILTER INLET CONFIGURATION (TYP). 1 REVIEWED FOR - CODE COMPLIANCE APPROVED JAf! 0 4 1016 LICity off Tukwila ILDING DIVISION 2' 1' 0 1' 2' RECEIVED CITY OF TUKWILA DEC 16 2015 PERMIT CENTER 4' SCALE: 1 /2"=1'-0" pog li2th AveNE, Suite Too, Bellevue WA 98004 4 5.628.600o roudharbinigetcom SYM REVISION APPROVED DATE SYM REVISION BY APPROVED DATE VACUUM PUMP -UPGRADES .,-.. W33831.13 WH_ THH 10.23.15 ACCEPTABILITY THIS DESIGN AND/OR SPECIFICATION IS APPROVED APPROVED BY DEPT. DATE DRAWN D.R.CHESTERFIEL CHECKED DATE 12/21/93 SUBTITLE ENLARGED PROCESS PIPING PLAN CURRENT REVISION W3383113 SYMBOL DATE 10.23.15 ENGINEER CHECKED R.W.SQUIRES APPROVED E.CARRIGAN APPROVED 12/21/93 12/21/93 TITLE MECHANICAL MASTER VACUUM PUMP UPGRADES BUILDING 9-102 DEV. CENTER, WA SHEET M512 JOB: NO. 57608500 COMP NO.. DWG NO. 9-102-M512 N N CI891k 08/20/07 LEGEND 4-WAY SEISMIC BRACING SEE DWG. 9-101-M507 FOR DETAIL. 3 VIC No. 100 LONG RADIUS 9-103 BUILDING SEE DWG: "9-101 VACUUM" FOR PIPING CON'T • VACUUM PUMP'S CONTROL PANEL 1" PUMPED CONDENSATE FROM 9-101 CONTINUED ON 9-101-1M61 ACUUM PUMP'S OWER PANEL 3" ISOLATION VALVE & BLOCKING VALVE OYP. OF 4)- 8"EXH. —SEE DWG. S451 FOR CONCRETE 34"DRAIN W/ VALVE PAD AT THE BOTTOM (TYP. OF 4) x g 1-1/2" 8" VICTAULIC. TEE WITH 1" LOW POINT DRAIN AT BOTTOM- 8"EXH. 3"EXHAUST 8"0 24 GA. GALV. SPIRAL DUCT EXHAUST STACK WITH GOOSE NECK & BIRD SCREEN TERMINATE AT 12" ABOVE ROOF, SEE SKETCH K9103MA FOR DETAIL LOPE DN. CENTER OF PIVOT POINT 8"EXH. n , ci'l I !sic.* ini A ,, 1 4, I I I I I 1 1H'Iu II II 1 1 AH 11 I 1 I.i I II E ► ' I !1 I� 11 I 1 ! 11 1_1/2,, I 1 1 1lid FIRST FLOOR PLAN SCALE: 1 /8"=1 -0" 1" HPS FROM 9-101 CONTINUED ON 9-101-1M61 9-101 BUILDING 1" DRAIN W/ BALL VALVE CHWR I>a CHWS L>a 1/2" SYM REVISION APPROVED DATE SYM REVISION BY APPROVED DATE PURCH/INSTALL •VACUUM PUMPS PH-2 .- . .. 576198-01,03 M.WONG. RWS ......... 10.29.08 B MODIFY VACUUM PUMP EXHAUST M.WONG 05.14.14 C VACUUM PUMP UPGRADES W338311.3 WH THH 10.23.15 ACCEPTABILITY THIS DESIGN AND/OR SPECIFICATION IS APPROVED APPROVED BY DEPT. DATE DRAWN M.WONG Tz--- 3/4" CAP -3"VAC SEE DWG. S451 FOR CONCRETE PAD 10 �0 3/4" A FROM 9-101 CONTINUED ON 9-101-1M111 DATE 11.06.06 -t-- 2-WAY SEISMIC BRACING SEE DWG. 9-101-M507 FOR DETAIL. GENERAL NOTES 1. ALL VACUUM PIPING SHALL BE CARBON STEEL, SCH-40 ASTM A53, GRADE B. THE PIPE FITTINGS SHALL BE EITHER WELDED OR VICTAULIC GROOVE FITTING WITH FLUSHSEAL GASKETS OR METAL LINER INSERTS. ALL NEW VACUUM PIPING SHALL. BE .TESTED WITH .THE PLANT VACUUM SYSTEM FOR 2 HRS BY RECORDING THE STARTING AND ENDING VACUUM READING. 490 CFM BUSCH CENTRAL VACUUM SYSTEM, RC-0630 SINGLE -STAGE DIRECT DRIVEN, AIR-COOLED ROTARY VANE VACUUM PUMP, 25HP,, TEFC ELECTRIC MOTOR, 3/60/460V, OIL COOLER,; .. MODIFICATION KIT. (TYPICAL OF 4) 3" 0 X 10" LONG, BRAIDED PUMP CONNECTOR, FLEX -HOSE CO. INC. PUMPSAVER, 321 STAINLESS STEEL, 150# RAISED FACE FLANGE FITTINGS. (4 EACH FOR THE PUMP'S EXHAUST LINES) 3"0 APOLLO. BALL VALVE 71-ARO-64-35 WITH A .115V. ACTUATOR 'AE-800-10. 4 EACH PROVIDED ; BY BUSCH) ALLEN BRADLEY MICROLOGIX. 1400 MASTER CONTROL PANEL FOR 10 VACUUM PUMP CONTROL CONSTRUCTION NOTES OWNER FURNISHED CONTRACTOR INSTALLED. • .A119 152n16 REVIEWED FOR CODE COMPLIANCE APPROVE JAN 0 4 2016 City of Tukwila BUILDING DIVISION REFERENCE .DAWINGS 9-101-M1M94 9-101-M1M501 9-101-M1M5O1 TWO VACUUM PUMPS ON THE MEZZANINE. TWOVACUUM PUMPS ON THE MEZZANINE. . RECEIVED TWO VACUUM PUMPS ON THE MEZZANINE. CITY OF TUKWILA DEC 16 2015 ISSUED FOR CONSTRUCTION OCTOBER 23, 2015 PERMIT CENTER 8 4 0 4 8 16 SCALE: 1/8 = 1'-0" 30 ugh Ave ,NE, Site ioa :Bellevue. WA 98o04 45.6 8.s000 woodharbingercom CHECKED SUBTITLE PIPING PLAN CURRENT REVISION SYMBOL DATE W3383113. C 10.23.15 ENGINEER M.WONG CHECKED APPROVED APPROVED 11.06.06 MECHANICAL MASTER VACUUM PUMP UPGRADES BUILDING 9-103 COL E-G1/1-2 SHEET IMII'O JOB NO. COMP NO. WONGK: 5/14/2014 5:06:00 PM DEV. CENTER, WA DWG Na 9-103-1M110 —CLOSED ,OFF ,9 10,1 WINDOW OPENING SYM. A. B C D 9-101 COL. 6/1 2ND FLR 1C -6". FUMEEXHAUST FRO 9-101 CLEANROOM 30"X24" 48"30. RETURN AIR 48"X24" SUPPLY AIR. ./ I 30"X24" 36"X24" 1811X2411 I FIN. FLR 2ND FLR 1ST 'FLR REVISION INSTALL-CLEANROOM, INSTALL FUME EXHAUSTER R I 0) PURCH/INSTALL VACUUM PUMPS PH-2 VACUUM PUMP UPGRADES BYPASS VALVE N.C. 2 .140795-01 140795-06 576198-01,03 W3383113 SECTION A SCALE: 1/4"=1'-0" • 1/L1 CONCRETE 6"DRIP LEG II PAD (TYP. OF 4) S ECT { Q \ SCALE: 1/4"=1-0" 1 M110 M501 BY RWS RWS. M.WONG WH APPROVED RWS RWS RWS THH DATE 06.28.05 07.20.05 10.29.08 10.23.15 B-LINE B22SH CHANNEL UTILITY STAND B-LINE B2010 PIPE CLAMP 5'-6" AFF 3/8" STANDA SCALE: NONE j"CHW BELL & GOSSETT %"CB CIRCUIT ie. `e. SETTER, 4GPM Y2" BELIMO B2 CONTROL VALVE I 1 > Y2"NPT, 25'-125'F WEKSLER 5S02-FN (TYP. OF 2) 2ND FLR A314E)- N I re. '.__1 *ALL PIPING SHALL BE TYPE-L COPPER 1/2" COPPER TUBING 1/2" BALL VALVE c="e,„---- 1 /2" SCH 40 STEEL PIPE NIPPLE 1 "X1/2" BUSHING (TYP) 1/2" BLK MI 90 DEGREE STREET ELBOW (TYP) 3/8" STD DUPLEX AIR OUTLET 3/8" PARKER EZMATE #EZ306F-8T QUICK DISCONNECT COUPLINGS (TYP) 1" BLK MI TEE DUPLEX AIR OUTLET DETAIL (.1) IM60 M501 SEQUENCE OF OPERATION: MODULATE THE CHILLED WATER CONTROL VALVE TO MAINTAIN RETURN OIL TEMPERATURE OF 195E (ADJUSTABLE). Y"NPT, 0-160# MARSH P5148W3 (TYP. OF 2) OIL PIPING FROM THE FILTER BASE Y2"NPT, 30-240'F WEKSLER 5A02-FM OIL TEMP SENSOR TO CMCS Y"DRAIN CHILLED WATER PIPING DIAGRA VACUUM SCALE: NONE. VACUUM PUMP CONCRETE PAD SECTION c U 9-101-M1 M500, 9-101-M1 M501, 9-102-M512, 9-102-M503, SCALE: 1/4"=1'-0" M501 1M10 M501 VACUUM RECEIVER 1111•111111111, REVISION HIGH PRESSURE DRAIN, PARKER JDK 5000H 8"VAC BY CONCRETE. PAD APPROVED Y4" DRAIN W/ BALL VALVE DATE 2ND FLR 8"EXH 8"VAC SECTION SCALE:. 1/4"=1'-0" ACCEPTABILITY THIS DESIGN AND/OR SPECIFICATION IS APPROVED APPROVED BY DEPT. 8"VAC .0. 4"VAC It N.O. DATE (b) M501 2 1 M60I M501 LEGEND > Y2" B2 TWO-WAY CHARACTERIZED CONTROL VALVE, STAINLESS STEEL BALL' AND STEM 'TR' ACTUATORS, PROPORTIONAL, CV=0.8, 1.8GPM ©. 5 PSI DROP, NON -SPRING RETURN, UL LISTED, 24VAC OR 24VDC POWER SUPPLY, 2-'10VDC INPUT, BELIMO . CCV-B209 WITH TR24-SR-T-US ACTUATOR. (4 EACH PROVIDED BY CCI CONTROLS). VIC-300 MASTERSEAL BUTTERFLY. VALVE, SERIES 761., FULL VACUUM SERVICE, GROOVED; 4" AND LARGER SHALL BE GEAR OPERATED. 3" AND. SMALLER SHALL BE HAND OPERATED. 3"0 X 12 LONG, BRAIDED PUMP CONNECTOR, FLEX -HOSE 'CO. INC. PUMPSAVER, FULL VACUUM SERVICE, 321 STAINLESS STEEL,GROOVED ENDS. (4 EACH FOR THE PUMP'S INTAKE LINES) 3"0 X 10" LONG, BRAIDED PUMP CONNECTOR, FLEX -HOSE CO. INC. PUMPSAVER, 321 STAINLESS STEEL, 150# RAISED FACE FLANGE FITTINGS.. '(4 EACH FOR THE PUMP'S EXHAUST LINES) 3" 0. BLOCKING VALVE, APOLLO BALL VALVE 71-ARO-64-35 WITH A 115V: ACTUATOR AE-800-10. (4 EACH PROVIDED BY BUSCH) GENERAL n OTES 1. ALL CHILLED WATER PIPING SHALL BE TYPE-L COPPER TUBING WITH ARMAFLEX PIPE INSULATION. THE INSULATION SHALL BE 1" THICK FOR 1"0 AND LARGER AND %" THICK FOR 34"0 AND SMALLER. 2. ALL VACUUM PIPING SHALL BE SCH-40 BLACK STEEL, ASTM . A53,. GRADE B. PIPE FITTINGS SHALL BE VICTAULIC GROOVED WITH FLUSHSEAL GASKETS OR METAL. LINER INSERTS. ALL NEW VACUUM PIPING SHALL BE TESTED WITH THE PLANT VACUUM SYSTEM FOR 2 HRS BY RECORDING THE STARTING AND ENDING VACUUM READING. CONSTRUCTION NOTES laS 15 21116 REVIEWED FOR CODE COMPLIANCE APPROVED JAN 0 4 H i6 Cify of Tukwila BUILDING DIVISION ISSUED FOR CONSTRUCTION OCTOBER 23, 2015 D • WN DATE SUBTITLE EDDIE P. DUARTE 04.08.05 CHECKED ENGINEER RWS CHECKED APPROVED APPROVED 06.16.05 TITLE MECHANICAL MASTER SECTIONS AND DETAILS VACUUM PUMP UPGRADES BUILDING 9-103 4 2' 0 RECEIVED CITY OF TUKWILA DEC 16 2015 PERMIT CENTER 16' SCALE: 1 /4"=1'-0" CURRENT REVISION W3383113 SHEET JOB NO. SYMBOL D DATE M501 3009.urtITAve .NE, Siilte moo. ;U 1 :ueWA9�4: .4 ,628.6aoo woodharbiinger.com 10.23.15 COMP NO. DEV. CENTER, WA ;DWG ND. 9-1.03-M501 DAEENOJA: 09/01/15