HomeMy WebLinkAboutPermit PG11-122 - FOSTER HIGH SCHOOLFOSTER HIGH SCHOOL
4242 S 144 ST
PG1 1 -122
City Tukwila
Department of Community Development
6300 Southcenter Boulevard, Suite #100
Tukwila, Washington 98188
Phone: 206-431-3670
Inspection Request Line: 206 - 431 -2451
Web site: http: / /www.TukwilaWA.gov
Parcel No.: 1523049108
Address: 4242 S 144 ST TUKW
Project Name: FOSTER HIGH SCHOOL
PLUMBING /GAS PIPING PERMIT
Permit Number:
Issue Date:
Permit Expires On:
PG11 -122
09/02/2011
02/29/2012
Owner:
Name: TUICWILA SCHOOL DISTRICT
Address: 4640 S 144TH ST , TUI{WILA WA 98168
Contact Person:
Name:
Address:
Email:
JOHN EIMER
18802 80 AV S , KENT WA 98032
JOHNK @SHINNMECH.COM
Contractor:
Name: SHINN MECHANICAL
Address: 13301 SE 26 ST , BELLEVUE WA 98005
Contractor License No: SHINNMIO60QP
Phone: 425 - 204 -3942
Phone: 425 -373 -9800
Expiration Date: 11/19/2011
DESCRIPTION OF WORK:
REPLACE EXISTING GAS /OIL BOILER WITH NEW HIGH EFFICIENCY GAS BOILER (UNDER
SEPARATE MECHANICAL PERMIT). ADD NEW GAS METER FOR BOILERS ONLY PER ENERGY
CODE. MODIFY EXISTING GAS PIPING TO ACCOMODATE NEW BOILER AND GAS METER
INSTALLATION. THIS REQUIRES MODIFICATIONS TO GAS PIPE SERVING HW HEATER AND GAS
TO KITCHEN.
Value of Plumbing /Gas Piping:
Fees Collected:
Electrical Service Provided by:
Permit Center Authorized Signature:
I hereby certify that I have read an
governing this work will be oomph
$875.00
$120.75
The granting of this permit does not p
construction or the perfo
on the back of this pe
Signature:
Print Name:
ance of work
Uniform Plumbing Code Edition:
International Fuel Gas Code Edition:
Date:
2009
2009
011 ti
ed this permit and know the same to be true and correct. All provisions of law and ordinances
whether specified herein or not.
e to give authority to violate or cancel the provisions of any other state or local laws regulating
• am authorized to sign and obtain this plumbing /gas piping permit and agree to the conditions
Finer
Date: VZ 7 ?Cl/
This permit shall become null and void if the work is not commenced within 180 days from the date of issuance, or if the work is suspended
or abandoned for a period of 180 days from the last inspection.
doc: UPC -4/10
PG11 -122 Printed: 09 -02 -2011
•
PERMIT CONDITIONS
Permit No. PG 11 -122
1: ** *PLUMBING AND GAS PIPING * **
2: No changes shall be made to applicable plans and specifications unless prior approval is obtained from the Tukwila
Building Division.
3: All permits, inspection records and applicable plans shall be maintained at the job and available to the plumbing
inspector.
4: All plumbing and gas piping systems shall be installed in compliance with the Uniform Plumbing Code and the Fuel Gas
Code.
5: No portion of any plumbing system or gas piping shall be concealed until inspected and approved.
6: All plumbing and gas piping systems shall be tested and approved as required by the Plumbing Code and Fuel Gas Code.
Tests shall be conducted in the presence of the Plumbing Inspector. It shall be the duty of the holder of the permit to
make sure that the work will stand the test prescribed before giving notification that the work is ready for inspection.
7: No water, soil, or waste pipe shall be installed or permitted outside of a building or in an exterior wall unless,
adequate provision is made to protect such pipe from freezing. All hot and cold water pipes installed outside the
conditioned space shall be insulated to minimum R -3.
8: Plastic and copper piping running through framing members to within one (1) inch of the exposed framing shall be
protected by steel nail plates not less than 18 guage.
9: Piping through concrete or masonry walls shall not be subject to any load from building construction. No plumbing
piping shall be directly embedded in concrete or masonry.
10: All pipes penetrating floor /ceiling assemblies and fire - resistance rated walls or partitions shall be protected in
accordance with the requirements of the building code.
11: Piping in the ground shall be laid on a firm bed for its entire length. Trenches shall be backfilled in thin layers to
twelve inches above the top of the piping with clean earth, which shall not contain stones, boulders, cinderfill,
frozen earth, or construction debris.
12: The issuance of a permit or approval of plans and specifications shall not be construed to be a permit for, or an
approval of, any violation of any of the provisions of the Plumbing Code or Fuel Gas Code or arty other ordinance of the
jurisdiction.
doc: UPC -4/10
PG11 -122 Printed: 09 -02 -2011
CITY OF TUKWILA
Community Development Department
Permit Center
6300 Southcenter Blvd., Suite 100
Tukwila, WA 98188
htto://www.ci.tukwila.wa.us
Plumbing/Gas Permit No ; 1)6 41
Project No.
(For office use only)
PLUMBING / GAS PIPING 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.: 1523049108
Site Address: 4242 S. 144th St., Tukwila, WA 98168 Suite Number: Floor:
Tenant Name:
Foster High School
Property Owners Name: Tukwila School District
New Tenant: ❑ Yes ® ..No
Mailing Address: 4640 S. 144th St.
Tukwila
WA 98168
City
State
Zip
CONTACT PERSON - Who do we contact when your permit is ready to be issued
Name: John Eimer
Mailing Address: 18802 80th Ave S. Kent WA 98032
City
Fax Number:
Day Telephone: (425) 204 -3942
E -Mail Address: johnk @shinnmech.com
State
(425) 203 -9801
Zip
PLUMBING / GAS PIPING CONTRACTOR INFORMATION
Company Name: Shinn Mechanical
Mailing Address: 18802 80th Ave S.
Kent
WA 98032
Contact Person: John Eimer
E -Mail Address: johnk @shinnmech.com
Contractor Registration Number: SHINNM1060QP
City State Zip
Day Telephone: (425) 204 -3942
Fax Number: (425) 203 -9801
Expiration Date: 11/19/2011
ARCHITECT OF RECORD - All plans must be wet stamped by Architect of Record
Company Name: Not Applicable
Mailing Address:
City
Contact Person: Day Telephone:
Fax Number:
E-Mail Address:
State
Zip
ENGINEER OF RECORD - All plans must be wet stamped by Engineer of Record
Company Name: McKinstry
Mailing Address: 5005 3rd Ave. S.
Seattle
WA 98124
City State Zip
Contact Person: Norman Foster Day Telephone: (206) 838 -2886
E -Mail Address: normanf @mckinstry.com Fax Number:
H:\Applications\Forms- Applications On Line \2009 Applications \1 -2009 - Plumbing -Gas Piping Permit Application.doc
Revised: 1 -2009
bh
Page 1 of 2
Valuation of Project (contractor's bid price): $ 43,453
Note: Gas Scope is valued at $875.
Scope of Work (please provide detailed information):
Replace existing gas /oil boiler with new high efficency gas boiler. Add new gas meter for boilers only per energery cu
Modify existing gas piping to accommodate new boiler and gas meter installation. This requires modifications to gas
pipe serving HW heater and gas to kitchen.
Building Use (per Int'l Building Code): High School
Occupancy (per Int'1 Building Code):
Utility Purveyor: Water: Sewer:
Indicate type of plumbing fixtures and/or gas piping outlets being installed and the quantity below:
Fixture Type:
Qty
Fixture Type:
Qty
Fixture Type:
Qty
Fixture Type:
Qty
Bathtub or combination
bath/shower
Bidet
Clothes washer, domestic
Dental unit, cuspidor
Dishwasher, domestic,
with independent drain
Drinking fountain or
water cooler (per head)
Food -waste grinder,
commercial
Floor Drain
Shower, single head trap
Lavatory
Wash fountain
Receptor, indirect waste
Sinks
Urinals
Water Closet
Building sewer and each
trailer park sewer
Rain water system — per
drain (inside building)
Water heater and /or vent
Industrial waste treatment
interceptor, including trap
and vent, except for kitchen
type grease interceptors
Each grease trap
(connected to not more
than 4 fixtures - <750
gallon capacity)
Grease interceptor for
commercial kitchen ( >750
gallon capacity)
Repair or alteration of
water piping and /or water
treatment equipment
Repair or alteration of
drainage or vent piping
Medical gas piping
system serving 1 -5
inlets /outlets for a
specific gas
Each additional medical
gas inlets /outlets greater
than 5
Backflow protective
device other than
atmospheric -type vacuum
breakers 2 inch (51 mm)
diameter or smaller
Backflow protective device
other than atmospheric -type
vacuum breakers over 2
inch (51 mm) diameter
Each lawn sprinkler
system on any one meter
including backflow
protection devices
Atmospheric -type vacuum
breakers not included in
lawn sprinkler backflow
protections(1 -5)
Atmospheric -type
vacuum breakers not
included in lawn
sprinkler backflow
protections over 5
Gas piping outlets
Add Gas meter
and modify existing
piping for boiler
,,
PERMIT APPLICATION NOTES -
Value of Construction — In all cases, a value of construction amount should be entered by the applicant. This figure will 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 within 180 days following the date of application shall expire by limitation.
The Building Official may grant one extension of time for an additional period not to exceed 180 days. The extension shall be requested in writing
and justifiable cause demonstrated. Section 103.4.3 International Plumbing Code (current edition).
I HEREBY CERTIFY TH T I HAVE READ AND EXAMINED THIS APPLICATION AND KNOW THE SAME TO BE TRUE UNDER
PENALTY OF PERJURY : THE LAWS OF THE STATE OF WASHINGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT.
BUILDING 0 ER t ' AUT ED AGENT:
Signature: • r / 14.
Print
John Eimer
Date: 5,/1 o Zo
Day Telephone: (425) 203 -3942
Mailing Address: 18802 80th Ave S Kent WA 98032
Zip
City
State
Date Application Accepted: I
0— (0— L
�_ I �, i Date Application Expires:
Staff Initials:
H:\Applications \Forms - Applications On Line \2009 Applications \1 -2009 - Plumbing -Gas Piping Permit Application.doc
Revised: 1 -2009
bh
Page 2 of 2
lb
City of Tukwila
Department of Community Development
6300 Southcenter Boulevard, Suite #100
Tukwila, Washington 98188
Phone: 206 - 431 -3670
Fax: 206-431-3665
Web site: http: / /www.TukwilaWA.gov
Parcel No.: 1523049108
Address: 4242 S 144 ST TUKW
Suite No:
Applicant: FOSTER HIGH SCHOOL
RECEIPT
Permit Number: PG11 -122
Status: PENDING
Applied Date: 08/10/2011
Issue Date:
Receipt No.: R11 -01725
Payment Amount: $120.75
Initials: WER Payment Date: 08/10/2011 02:32 PM
User ID: 1655 Balance: $0.00
Payee: SHINN MECHANICAL
TRANSACTION LIST:
Type Method Descriptio Amount
Payment Check 035006 120.75
Authorization No.
ACCOUNT ITEM LIST:
Description
Account Code Current Pmts
GAS - NONRES
PLAN CHECK - NONRES
000.322.103.00.00 96.60
000.345.830 24.15
Total: $120.75
doc: Receipt-06 Printed: 08 -10 -2011
:Y •
9'.
INSPECTION RECORD
Retain a copy with permit
INSPECTION'NO. PERMIT NO.
CITY OF TUKWILA BUILDING DIVISION
6300 Southcenter Blvd., #100, Tukwila. WA 98188 (206) 431 -367
• Permit Inspection Request Line (206) 431 -2451
P6U -(2-L
v 1
Rrbj t � �- � - `
• 3m- fP
c
Type of Inspection: P �I P f� A �
1: &/ Al �i Co m-
Address.—
:441447- .
i 41
Date Called:
77— c brat Q
Special Instructions:
Date Wanted:. a.m.
tZ - co -I f m.
Requester:
Phone No: '
?� G- Ste. may -9 4-77
•ppr7oved per applicable codes. El Corrections required prior to approval. /3
COMMENTS:
PI "7- A k I PT?
Irispecto
.
REINSPECTION FEE REQUIRED. Prior to next inspection. fee must be
paid at.6300 Southcenter Blvd.. Suite 100. Call to schedule reinspection.
vr5
.;S y
Al e I Dater L
INSPECTION RECORD
Retain a copy with permit
INSPEC ON NO. PERMIT NO.
CITY OF TUKWILA BUILDING DIVISION
6300 Southcenter Blvd., #100, Tukwila. WA 98188 v. (206) 431 -3670
Permit Inspection Request Line (206) 431 -2451
��tt -►22_
Projec �,�`
R) S1 r r 6.4- Sc.�ia
Tye of Inspection:
t 11.3 t l io +t-
.a! 6, 0kS
Address:
412 2_ 1.4
"6
Sr
Date Called:
Special Instructions:
j '- ` ke
t92425 401:
s "p
-3941..
Date Wanted: .
...--Cm
Requester:
o
Phone No:
- 9£foo -SW
EjApproved per applicable codes.
Corrections required prior to approval.
COMMENTS:
l .?"1' A-I9 Jule o r d t/
f!- —S0A A A` s7
o
— ` Li
'
p
,vl,7:7)/-
r..
. A
ri REINSPECTION FEE REQUIRED. Prior to next inspection. fee must be
paid at 6300 Southcenter Blvd.. Suite 100. Call to schedule reinspectioh.
y •
FILE COPY
n..,...,.aa Pend
Sage Metering, Inc.
8 Harris Court, Bldg. D1
Monterey, CA 93940
866 - 677 -SAGE (7243)
831 - 242 -2030/ 831 - 655 -4965 Fax
SAGE SIP SPECIFICATIONS
INTEGRAL STYLE PRIME IN -LINE MASS FLOWMETER
Flow Meter is thermal dispersion type, utilizing
constant temperature difference method of
measuring Gas Mass Flow Rate. It contains
two reference grade platinum RTD sensors
clad in a protective 316 SS sheath. Features
direct Mass Flow for gases, wide rangeability,
low pressure drop, very low end sensitivity, and
no moving parts.
4.60
REVIEWED FOR
CODE COMPLIANCE
APPROVED
AUG 222011
ity of Tukwila
DING DIVISION
5.38
Flow Meter is microprocessor based, does not 2 -3/4"
have any potentiometers, and has Modbus® Nominal
RS485 RTU communications (IEEE 32 Bit FLOW -->
Floating Point). Flow Meter is powered by 24
VDC (12 VDC optional or 115/230 VAC). The
power dissipation is under 2.5 watts (e.g. under
100 ma at 24 VDC). Power and output
terminals are in a separate compartment for ease of installation.
Electronics is Integral Style, with rugged windowed dual compartment enclosure with local
display. The display is a high contrast photo- emissive OLED display with Screen Saver, and
it displays Mass Flow Rate, Totalized Flow and Temperature as well as a graphical
representation of Flow Rate in a horizontal bar graph format. In addition, the calibration
milliwatts (mw) is continuously displayed, providing ongoing diagnostics. Flow meter
provides an isolated 4 to 20 ma output proportional to Mass Flow Rate as well as Pulsed
Outputs of Totalized Flow (24 VDC solid state transistor drive). In addition, Modbus®
RS485 RTU communications is standard.
See _01
Chart3
Flow Element is In -Line Style consisting of a choice of 316 Stainless Steel Schedule 40 Flow
Bodies sized from'/" x 6" long to 4" x 12" long. Male NPT ends are standard, with flanged
ends, tube, or butt weld optionally available. Flow Conditioners are built in to In -Line Style
Flow Bodies from %2" and up.
Calibration Self Check: Flow Meter has built in diagnostics — a display of the calibration
milliwatts (mw) can be used to check the sensor's operation by being compared to the
original reported "zero flow" value noted on meter's Certificate of Conformance (last few
lines) and metallic tag. This convenient in -situ field diagnostic procedure verifies that the
original factory calibration hasn't drifted, shifted, or changed. This "Sensor Functiona i `DIVED
Sage SIP Integral IN -LINE SPECS -REV 8 2 9/2/10 AUG 10 2011
PERMIT CENTER
• Page 2 September 26, 2010
Zero Self Check" also verifies that the sensor is free from contamination, even without
inspection.
Accuracy is +/- 0.5% of Full Scale +/ -1 % of reading with a turn -down of 100 to 1 and
resolution as much as 1000 to 1. Repeatability will be 0.2 %. The Flow Meter is Sage
Metering, Inc. SIP Series, with the trade name Sage Prime TM
Approvals: CSA C22.2 (24 VDC); ULI604, Class I, Div 2, Grps B, C, D T4 (24VDC); Atex Ex
nA IIC T4 (24VDC); CE (AC Power or 24VDC); Medical CE (115/ 230 VAC Power).
S fl 6 E
O N O INC.
INSTRUMENT DATA
SHEET
DOCUMENT NO. 100-0108
SAGE PRIME
THERMAL MASS FLOW
METER
GAS MASS FLOW
SAGE SIP SPECIFICATIONS
INTEGRAL STYLE PRIME
IN -LINE MASS FLOW METER
X, "' ..., � �r"'Fw rvS ni ° sv.[* +"l� Y '!k!' e °�.� #r,.._ ; j..... ...
GENERAL INFORMATION
STYLE: Integral In -Line Mass Flow Meter
SENSOR: Two reference grade platinum RTD clad in 316SS sheath
MATERIAL: Wetted metal components: 316SS
POWER: 24VDC Standard (12VDC or 115 /230VAC optional)
POWER DISSIPATION: <2.5 w
ELECTRONICS: Microprocessor based
ELECTRONICS ENCLOSURE: Integral mount, NEMA 4 enclosure
DISPLAY: High contrast photo- emissive OLED graphical display (Flow rate, Totalizer, Temperature)
TURNDOWN: 100 to 1
RESOLUTION: 1000 to 1
LOW END SENSITIVITY: 5 SFPM
FIELD CALIBRATION CHECK: Yes - Digital system allows raw signal validation (milli -watts)
COMMUNICATIONS: Modbus® compliant RS485 RTU communications
APPROVALS: CSA C22.2 (24 VDC); ULI604, Class I, Div 2, Grps B, C, D T4 (24VDC);
CE (AC Power or 24VDC) ATEX: Ex, nA IIC T4X (24VDC model only)
FIELD RECONFIGURABLE: Yes - Sage ADDRESSER or Sage DONGLE
FLOW ACCURACY: +/- 0.5% of Full Scale +/- 1% of reading
FLOW REPEATABILITY: 0.2%
RESPONSE TIME: 1 second
GAS TEMPERATURE RANGE: -40° TO 200°F STD (if higher temperature needed, contact Sage)
GAS PRESSURE: 500 PSIG (if higher pressure needed, contact Sage)
FLOW OUTPUT: 4 to 20 mA for rate; 24VDC pulse for totalized value
TEMPERATURE OUTPUT: Through Modbus® only
AMBIENT TEMPERATURE: -4° F TO 150°F
FLOW BODY: 316SS Schedule 40 Flow Bodies sized from 1/4" x 6" long to 4" x 12" long.
Male NPT ends standard (Flanges and other options available)
RELAYS: N/A
FLOW CONDITIONING: Flow Conditioners are built in to In -Line Style Flow Bodies from 1/2" to 4"
Make the Wise Choice. Choose Sage Flow Meters.
2 -3/4"
Nominal
FLOW....'
<— 4.60 —).
5.38
,940-4-,..,
f�
Iii �'� ii
\,``,
r
n
w
��II
x �I
Sage Metering, Inc / 8 Harris Ct / Building D1 / Monterey, CA 93940 / 866 - 677 -SAGE / 831 - 242 -2030 / Fax 831- 655 -4965 /
100 -0108 SIP In -Line Instrument Data Sheet
www.sagemetering.com
Sfl6E
METERING, INC.
SAGE PRIMETM
THERMAL MASS FLOW METER FOR GASES
FEATURING IN -SITU CALIBRATION CHECK
SAGE PRIMETM THERMAL MASS FLOW METER FOR GASES
Sage Prime is the top selling meter in our Product Line.The Sage
Prime Thermal Mass Flow Meter features a bright, high contrast,
photo - emissive OLED display of Flow Rate,Total and Temperature
in a robust, yet lightweight, dual -sided NEMA enclosure.The flow
rate is also displayed graphically in a horizontal bar graph format.
The rear compartment is completely separated from the electronics,
and has large, easy -to- access, well marked terminals, for ease of
customer wiring (see photo below). It is powered by 24 VDC (12 VDC
optional, or 115/230 VAC).The power dissipation is under 2.5 watts
(e.g. under 100 mA at 24 VDC).
The Sage Prime Flow Meter is offered in Integral or Remote Style
(which has lead- length compensation up to 1000 feet as well as an
Explosion Proof Junction Box). Specify any standard probe length
or flow body size. It has a 4-20 mA output as well as a Pulsed Output
of Totalized Flow (solid state transistor drive). In addition, Sage Prime
supports full Modbus® compliant RS485 RTU communications (IEEE
32 Bit Floating Point).
Sage Prime is CE approved, and CSA, UL and ATEX approved for
Hazardous Service2 (see Approvals tab on the website).
CONTINUOUS DIAGNOSTICS & FIELD CONFIGURABILITY
Sage Prime has continuous diagnostics.The raw calibration milli -
watts (mw) is always displayed in the upper left hand corner of the
meter's display. At any time, you can check this reading at a "no flow"
condition, and compare the reading to the original reported "zero
flow" value noted on the last few lines of your meter's Certificate
of Conformance or the flow meter's data tag.This in -situ diagnostic
procedure not only checks the sensor performance and the "live
zero" calibration point, but it also verifies that the sensor is clean.
It essentially provides a means to validate that the meter is oper-
ating properly, verifies that there is no shift or drift, and eliminates
the need for annual factory calibrations.This
simple field diagnostic procedure, in addition,
verifies that the sensor is free from contami-
nation, even without inspection.
Although Sage Prime is fully configured
upon shipment for the pipe and process
conditions requested, if changes are need-
ed, the Sage Dongle or the Addresser PLUS software
is available.
MAJOR BENEFITS OF THERMAL MASS FLOW METERS
• Direct Mass Flow —
No need for separate
temperature or pres-
sure transmitters
• High Accuracy and
Repeatability —
Precision measure-
ment and extraor-
dinary repeatability
a Turndown of 100 to 1 and
resolution as much as 1000 to 1
• Low -End Sensitivity — Measures as low as 5 SFPM (e.g., 1 SCFM
in a 6" pipe)
e Negligible Pressure Drop — Will not impede the flow or waste energy
• No Moving Parts — Eliminates costly bearing replacements, and
prevents undetected accuracy shifts
• Dirt Insensitive — Provides sustained performance
• Low cost -of- ownership
• Ease of installation and convenient mounting hardware
�-- Dual -Sided NEMA
Enclosure, with large,
easy - to-access terminals
In rear compartment
Features a very high
contrast display of
Gas Flow Rate, Total
and Temperature,
visible outdoors'
Photocell activated
Screen Saver extends
display life
SPECIFIC BENEFITS OF THE SAGE PRIME
• High contrast photo- emissive OLED display with numerical Flow
Rate,Total and Temperature, as well as Graphical Flow Indicator
e Photocell activated Screen Saver to extend display life
n Calibration milliwatts (mw) is continuously displayed, providing for
ongoing diagnostics, and in -situ calibration check
• Modbus® compliant RS485 RTU communications
• Isolated 4-20 mA output
• Rugged, user - friendly packaging with easy terminal access
• Option for Solar Energy use (12VDC models)
• Low power dissipation, under 2.5 Watts (e.g. under 100 ma at 24 VDC)
• Powerful state -of- the -art microprocessor technology for high per-
formance mass flow measurement and low cost -of- ownership
• Proprietary digital sensor drive circuit provides enhanced signal
stability and unaffected by process temperature & pressure changes
• Remote Style has Lead - Length Compensation. Allows remote elec-
tronics up to 1000 feet from probe; Explosion Proof Junction Box
has no circuitry, just terminals (suitable for harsh environments)
• Field reconfigurability via Sage Dongle or Addresser PLUS software
• Flow conditioning built into In -Line flow meters (1/2" and up)
• Captive Flow Conditioners for Insertion meter applications, if required
1 Note, a built -in photocell continuously monitors the ambient light and adjusts the display brightness for
optimum long -term life, and also senses motion which automatically switches display from Screen Saver
mode to Normal mode
2 Only available with 24VDC powered meters
Sage Metering, Inc. / 8 Harris Court / Bldg D -1 / Monterey, CA 93940 / 866 - 677 -SAGE (7243) / 831 - 242 -2030 / Fax 831 - 655 -4965 / www.sagemetering.com
Rev. 14 -0111
SAGE PRIME' STYLES AND SPECIFICATIONS
Sage Metering is your source for monitoring, measuring and controlling the gas mass
flow in your industrial process, building management system or environmental appli-
cation. Our high performance, NIST Traceable,Thermal Mass Flow Meters will help in-
crease productivity, reduce energy costs, maximize product yields, and /or help reduce
environmental insult. Sage provides high quality In -Line and Insertion Thermal Mass
Flow Meters for a wide variety of industrial, commercial, and environmental moni-
toring needs, including carbon credit verification for Greenhouse Gas reduction.
SIP SERIES — INTE.G.RAL
Optional 5VAOS Isolation Valve Assembly
Optional Programmable Dongle
Our experienced application engineers, many of whom have worked in the
Thermal Mass Flow marketplace since its inception, will assist you in choosing
the proper gas Flow Meter for your application — and they will be pleased to offer
installation guidance to assure that the meter(s) selected will perform as accurately
as possible. Additionally, our Service Staff stand ready to support you with any
after -sale assistance that you may require.
RP :SER.IES:- :REMOTE
Mounting
Hardware
(included)
PRIME SIP /SRP
Accuracy' is +/— 0.5% of Full Scale +/— 1% of reading with a turn -down of 100 to
1 and resolution as much as 1000 to 1. Repeatability is 0.2 %.The Flow Meter is Sage
Metering, Inc. PRIME Series, with the trade name Sage Prime m.
The electronics has an isolated 4 to 20 mA output proportional to Mass Flow Rate
as well as pulsed outputs of Totalized Flow (24 VDC solid state transistor drive). In
addition, Modbus R5485 RTU communications is standard (IEEE 32 Bit Floating Pt).
INTEGRAL STYLE ELECTRONICS
Electronics is Integral Style, with rugged windowed dual compart-
ment NEMA endosure with local display.The display is a high con-
trast photo - emissive OLED display with Screen Saver, and it displays
Mass Flow Rate, Totalized Row and Temperature as well as a graphi-
cal representation of How Rate in a horizontal bar graph format In
addition, the calibration milliwatts (mw) is continuously displayed,
providing ongoing diagnostics.
REMOTE STYLE ELECTRONICS
Electronics is Remote Style, with rugged windowed dual compartment NEMA endosure with display.The display is a high contrast photo -emis-
sive OLED display with Screen Saver, and it displays Mass Row Rate,Totalized Row and Temperature as well as a graphical representation of
Row Rate in a horizontal bar graph format In addition, the calibration milliwatts (mw) is continuously displayed, providing ongoing diagnos-
tics.Indudes Remote Mounting Hardware.
The How Element's Junction Box is Explosion Proof (Class 1, Div 1, Groups B, C, D),and does not have any electronics — only a wiring terminal
bloc.The Junction Box is connected to the Remote Electronics by 25 feet of lead- length compensated cable.The cable (6- conductor) can be
lengthened or shortened without affecting accuracy (max loop resistance 10 ohms, over 1000 feet), if grounded properly.
1' —caved 1
SIP In -Line
Flow Element Is In -line Style consisting ofa choice of 316
Stainless Steel Schedule 40 Flow Bodies sized from 1/4" x
6'long to 4" x 12" long.
SIP Insertion'
Row Element is Insertion Style, consisting ofa 1/2" 0D
probe (3/4" optional) with lengths up to 36" long
(typically 15" long) suitable for insertion into the center
ofa process pipe.
Jundian BOA is Prod, dm, 1 12.
iw
B "v
IRON/
SRP In -Line'
Flow Element is In -Line Style consisting ofa choice of 316
Stainless Steel Schedule 40 Flow Bodies sized from 1/4 "x
6 "long to 4'x 12" long.
Anece la
,.
Chu I, Pro 112
ur
SRP Insertion'
Flow Element is Insertion Style, consisting ofa 1/2'0D
probe (3 /''optional) with lengths up to 36'long
(typically 15'long) suitable for insertion into the center
ofa process pipe.
7/0 005
6r r
Cod Grip
Ream Erd
25 Cal a
r
uayooa
ENGINEERING SPECIFICATIONS OF OPTIONAL SAGE PRIME PLUS
This is an optional version of Sage Prime offering a separate ground for the 24VDC
Power Supply (optional 5 VDC or 12 VDC Power Supplies) which isolates the Modbus
ground from the power supply ground. All other features of Prime PLUS are identical
to the standard Sage Prime, except Approvals do not apply at this time.
1 Male NPr ends are standard with flanged ends, tub4 or butt weld optionally available
2 Mounting hardware such as Isolation Valve Assemblies, Compression Fittings, and Flanges, are optional
3 Chart of Flow Body length is on page 10 of the "Sage Gas Flow Meters"brochure (see "In -Line Flow Meters"
4 Enhanced accuracy available upon request, especially if turndown limited. Contact Sage
ntrol Magazine
3006 Innovations Awa
WINNER r
See Sage Metering 11 page Product
Brochure for additional information
and product benefits, or visit us at
www.sagemetering.com
Sage Metering, Inc. / 8 Harris Court / Bldg D -1 / Monterey, CA 93940 / 866 -677 -SAGE (7243) / 831 - 242 -2030 / Fax 831 -655 -4965 / www.sagemetering.com
}
COLU
rJ,1
FILE COPY
OA HYDROfIDCS COMPANY
Alaska • Idaho • Montana • Oregon • Washington
723 SW Tenth Street, Suite 110 0 Renton, Washington 98057
PH: (360) 883 -2600 0 FAX: (360) 883 -2607
www. columbiah ydronics
Office: 2D6 -431 -7681 phague @columblahydronlcs.com
Letter of Transmittal
Contractor: McKinstry Company
Date: 5/23/11
Attention: Norman Foster
PO #:
Job: Foster High School
Quote #: 11 -315
Enclosed please find the following items:
1
Sets Submittal Data
Submittal on CD
Sets IOM Manuals
IOM on CD
Notes: Submittal dimensions are approximate. For fabrication purposes, please request
certified prints.
We require a copy of the approved submittals for our files. If approved submittals
are not returned, all equipment will be ordered as submitted.
Remarks:
REVIEWED FOR
CODE COMPLIANCE
APPROVED
AUG 222011
Engineer: McKinstry
City of Tukwila
BUILDING DIVISION
.) Prepared by: Peter Hague CC:
REP: Columbia Hydronics Company
RECEIVED
AUG 10 2011
PERMIT CENTER
-e ate of r < } :•f ct ' e rfo rm a n ce
•
CommerciatBoiler Heating Equipment
Certified Reference Number: 1672653
•
This certificate serves as verification that the model cited below has
been rated in accordance with applicable federal testing methods
and verified by AHRI as capable of achieving the energy efficiency
and performance ratings as tested within prescribed tolerances_ This
Date Generated: 01/27/11 Status: Approved
certificate and these certified ratings ONLY apply to the specific
model detailed below and are non - transferable to altemate models
or configurations.
Manufacturer:
Series:
Material:
Location:
Model Number:
Fuel Type:
Input:
Heating Cap.:
Combustion Eff.:
Thermal Eff.:
Water:
CO2:
Ignition Type:
Draft Type:
HYDROTHERM DIVISION OF MESTEK, INC.
KN
Cast Iron
Indoor
KN -30
Natural Gas, Propane Gas
3000.0 MBTUH
2781 MBTUH
85.8
92.7
2418.00 MBTUH
0.0 %
Intermittent/Electronic Ignition
Induced Draft
ita/1 ctainht,
L.
Certified ratings for ARI, GAMA, and I =B =R certification programs
are valid only for models and configurations listed in the AHRI
Directory of Certified Product Performance located at
www.ahridirectory.org. The Information for the model cited on
this certificate can be located in the online directory by using
the reference number on the certificate. AHRI does not endorse
the product(s) listed in this certificate and makes no representations,
warranties or guarantees and assumes no responsibility for
the product(s) listed In the certificate. AHRI expressly disclaims
all liability for damages of any kind arising out of the use or
performance of the product(s) or the unauthorized alteration
of the data listed In this Certificate.
pp Air- Conditioning,
Heating. and
Ism Sim Refrlgeration Institute
lxRlik[!13HY1<�•�•.n..... yea... e- �. �.- .1FICVt9:ief..'SMGRN4N+iNiFt%'1 pr Wli1K1nY1�mbbG� .evfN�+i1+MYJAWi�
CODE OPTIONS
CSD-1 ' STANDARD
NOTE: Dimensions are approximate anti should
not bo used to 'rough-in` equipment.
4" Boiler Inlet
2154
(617.1 mm(
4^ Bailor Outlet
8- FLUE
45 98
(1187 8 mm(
20.42
18.6 mm(
3.89
(98.8 mm(
17.41
[4422 mm(
HSUB- 10REVA
17.38
(441.3 mm(
HS1.113- I0 -RE1,4A
81,87
(47.4 mm[
31 85
(da8.9 mml
3729
(917.1 mm(
19.88
.69 (4872 mm(
(174 mm(
HSU8-10REVA
A A
CENTER OF GRAVITY
Foster High School
Engineer: McKinstry
REP: Columbia Hydronics Company
Contractor: McKlnstry Company
Category 11 or Category IV Appliance
(sae Installation and Operation Manual tor venting information)
fi ydrolTher ffiw
A Product 41
ADVANCED THERMAL HTDRDNICS
A Division of Mestek. Inc.
Westfield, MA 01085
(413) 564 -5515
S(CN -30 -1
A.G.A. CERTIFIED RATINGS & CAPACITIES
Fuel Type
Natural /LP Gas
Boiler FLA
6.5 AMPS
Input BTU /hr.
3000 MBH/ 879 KW
Min. Gas Pressure Required
3' W.C.
Output BTU/hr.
2781 MBH/ 815 KW
Max. Gas Pressure Allowed
14' W.C.
Boiler HP
89.62
Water Volume
38 gal.
Electrical Requirements
240/33601e
Operating Weight
35001be. / 1588 kg.
BOILER TRIM & CONTROLS
Main Gas Valve
DUNS !ABC
Manual Pilot Valve
Honeywell V8046C
Firing Valve
1 112' Apollo
Air Switch
Huba Type 605
Ignition Control
Honeywell RM7800
Blower Motor
Armtek
Operating Control (FB /FIN)
HeatNetm
L.W.C,O.
750P -MT -120
High Limit
Honeywell L40066
Relief Valve - FW
30, 50. 75 & 100 PSI
Main Ball Valve
1 1/2' Apollo
Variable Speed Drive
None
Pilot Cock
1/4' Conoraco
Pilot Regulator
MAXITROL RV 121T
TEMPERATURE RISE / PRESSURE DROP (Based on Full Input)
20'F/11.1 "C
40"F/22.2'C
60'F/33.3'C
80" F/ 44.4"C
100'F /55.5'C
new Rate
Assure Drop
Fkm Rata
Pressure D,
Flew Raze
Pressure Drop
Flax Rata
Pressure Drop
Flax Rate Pressure Dime
GPM L/s
Ft kPa
GPM L/s
Ft kPa
GPM Lis
Ft kPa
GPM L/s
Ft kPa
GPM L/s Ft kPa
278 17.54
2.31 6.9
139 8.77
.58 1.73
92.7 5.85
.25 .75
69.5 4.38
.15 .45
55.6 3.51 .09 .27
Flow GPM
Mn
30'
Temp, Rise (•F)
Vent Length (Equiv. Ft.)
Mat
Mat
Rim
Ak Inlet Lefigih (Ersiv FL)
Max
300
20
10C
6
120
0
120
• At 100% Input
A.S.M.E.
ASME Sect IV Htg Surface
CV. GPM (1PSID)
100.96 Sq. Ft. / 9.38 Sq. M.
Design Data
100 PSI & + 250- F
278
UNBALANCED FLUE LIMITATIONS
Negative Flue Pressure
Positive Flue Pressure
+..9"W..C.
KN SE 1ES
HTN1 -307
P °DUCT DATA
Control Platform
DESCRIPTION
The KN- Series boiler control is designed to provide the
KN- series boiler with an integrated boiler management
system on every boiler. A key component of the Air -Fuel
coupled KN- Series boilers, the KN- series control provides
for optimized heating efficiency without the need for an
external "wall mount control". The control method used by
the KN- series control is based on digital communications,
which eliminates the need for analog control signals. The
use of analog control signals is still supported, but a higher
level of control precision, repeatability, and feedback is
gained with digital communications control.
The KN- Series control is extremely flexible, and can be
operated in multiple ways:
• A stand -alone boiler.
• A boiler in a Boiler Network using the Heat -NetTM
protocol.
• A member boiler to a boiler management system
• A member of a system with up to 3 boilers using relay
control.
The primary purpose of the control is to maintain the
boiler water temperature setpoint at either the supply or
the header sensor. The control also monitors dedicated
external limits and provides an orderly shutdown and fault
indication in the event of a trip.
The control method used is based on a PID loop and
functions much like a thermostat with an analog output.
The PID loop's input can be the supply or the header
temperature depending on the setup. The output is a
control signal that is derived from the difference between
this supply /header temperature and the setpoint. This
output control signal is a Pulse Width Modulated signal
used to control the blower which is Air -Fuel coupled to the
main gas valve.
When an external input is used to cycle the boiler ON
and OFF or when using an external modulation signal, an
adjustable internal operating limit setpoint is provided. If
the control is the master, a setpoint with a control band is
also employed in conjunction with the internal operating
limit setpoint to limit the output of the boiler.
STANDARD FEATURES
• Four levels of external control inputs, including
modulation and stage.
• Digital Communications Control (analog 4 -20ma,
0 -10vdc control supported, but not required).
• Boiler to Boiler: Heat -NetTM
• Building Management System (Modbus, Optional
BACnet or LonWorks) to Boiler
• Distributed control using the Heat -NetTM protocol for up
to 16 boilers, or up to 3 boilers using dedicated relays.
Eliminates the need for "wall mounted" controls.
• System operating status and error logging with time
stamp.
• Advanced PID algorithm optimized for the KN series
boilers.
• 4 Dedicated temperature sensor inputs for: Outside
Air Temperature, Supply (Outlet) Temperature, Return
Temperature(Inlet), and Header Temperature.
• Automatically detects the optional temperature sensors
on power up.
• Menu driven calibration and setup menus with a bright
(Adj.) 4 line Vacuum Fluorescent Display.
• 8 Dedicated 24vac interlock monitors, and 8 dedicated
120vac system monitors used for diagnostics and
providing feedback of faults and system status.
• Multiple circulator pump control modes.
• Combustion Air Damper control with proof time.
• USB /RS485 network support to allow firmware updates
or custom configurations.
• Optional BACnet or LonWorks interface.
• Alarm contacts.
• Runtime status.
• Outdoor Air Reset with programmable ratio.
• Time of Day clock to provide up to 4 night setback
temperatures.
• Failsafe mode - When a Building Management System is
controlling setpoint, if communications is lost, the boiler/
system will run off the Local setpoint.
260 NORTH ELM STREET
WESTFIELD, MA 01085
(413) 564 -5515 • FAX (413) 568 -9613
Advance 7555 TRANMERE DRIVE
MISSISSAUGA, ONTARIO L5S 1 L4 CANADA
Thermal Klydr'OnuCS (905) 672 -2991 • FAX (905) 672 -2883
A MESTEX COMPANY
CSD
Mushroom Head Switch (provided by others)
Push • Pull or Twist to release, Mtd at Extt Door(s)
1 NC contact per boiler required.
Additional contacts are limited to
switch capacity.
KN Boller Circuit Board
Terminal Strip "J11B"
(Interlocks)
J11B
Spare 4
Contad
a.•.•
ti
Remove Factory
Installed Jumper
•
j)
oiler Shut Dow
In the event there is more than one Emergency Boiler shut down switch required, wire switches in series
(one required per Ehvt).
t...••••
BLR1 Spare 4
».... .p
BLR2 Spare 4
(Additional Boiler)
Spare 4 0 • •
Contact
O.•
All field wiring provided by others. **
NOTE:
Use 14 AWG
stranded wire.
CM M.M a.. OM
HeatNetTM Communication Protocols vi.o1
Modbus
All HeatNet controls have the ability to interface with other networks (i.e. a Building
Management System) using the Modbus RTU protocol on a 2 -wire (twisted pair) RS -485
serial line. This option is standard on every HeatNetTM control. The following
communications parameters can be changed to meet the specific needs of the application.
1) Baud Rate — 9600 and 19200 are available. The default value is 192001.
2) Parity --- Even and None are available. The default value is Even'.
3) Address — The device (slave) address can be changed to any value between 1 and
247' inclusive. The default value is 1.
Please consult the appropriate Installation and Operation Manual (IOM) to change any of
these parameters on your specific HeatNetTM control. The Modbus Registers are listed in
the IOM and are also available as separate Modbus Registers document specific to each
product.
HeatNetTM Bridge Of used, contact your CHC Sales Engineer for information)
For those applications that require a protocol other than Modbus, we can provide a
HeatNetTM bridge that translates the Modbus registers into several of the most common
Building Automation protocols. This option is available at an additional cost. Please
contact your customer service representative to discuss price and availability.
The following sections describe the protocols that are available on the HeatNetTM Bridge.
On each protocol, some of the communications settings can be factory programmed to
meet specific needs of the application. If needed, please submit a completed "HeatNetTM
Bridge Addressing Worksheet" with your order. The bridges can also be programmed in
the field, but this is best done by someone that is very computer literate and has had some
TCP/IP networking experience.
BACnet IP (If used, contact your CHC Sales Engineer for information)
This version of the bridge allows a HeatNetTM control to interface with a BACnet IP
network. Most of the Modbus registers are translated to BACnet objects. To maintain
current values, the bridge must continuously read all of the translated Modbus Registers.
For efficiency reasons, a few of the less important registers may not be available on the
BACnet IP HeatNetTM Bridge. Please consult the appropriate "BACnet Objects"
document for your product for a complete list of available objects.
The BACnet IP Bridge is shipped with the following default address and communication
settings:
1) IP Address = 192.168.1.24
2) IP Subnet Mask = 255.255.255.0
3) BACnet MAC Address = 11
4) BACnet Node = 11
' As defined by the Modbus Specification.
HeatNetTM Communication Protocols
v1.01
BACnet MSTP (If used, contact your CHC Sales Engineer for information)
This version of the bridge allows a HeatNetT" control to interface with a BACnet MSTP
network. Most of the Modbus registers are translated to BACnet objects. To maintain
current values, the bridge must continuously read all of the translated Modbus Registers.
For efficiency reasons, a few of the less important registers may not be available on the
BACnet MSTP HeatNetTM Bridge. Please consult the appropriate "BACnet Objects"
document for your product for a complete list of available objects.
The BACnet MSTP Bridge is shipped with the following default address and
communication settings:
1) BACnet MAC Address = 11
2) BACnet Node =11
3) Baud Rate = 38400
LonWorks (LonTalk) ($f used, contact your CHC Sales Engineer for information)
This version of the bridge allows a HeatNetTM control to interface with a LonWorks
network. Most of the Modbus registers are translated to LonWorks/LonTalk Network
Variables. To maintain current values, the bridge must continuously read all of the
translated Modbus Registers. For efficiency reasons, a few of the less important registers
may not be available on the LonWorks HeatNetTM Bridge. Please consult the appropriate
"LonWorks Network Variables" document for your product for a complete list of
available network variables.
LonWorks devices can be automatically addressed when the device is commissioned by
software (i.e. LonMaker) so factory addressing will probably not be necessary.
Though the bridge adds the ability to interface to a LonWorks network, it does not meet
the LonMark Boiler Controller Functional Profile (SFPTboilerController).
' As defined by the Modbus Specification.
None 'ANN
Note: Only one required per boiler room
7800 SERIES
S7800A Kyboaird DpDaiy hi/11)0)We
APPLICATION
The S7800A Keyboard Display Module (KDM) provides first -
out annunciation and system diagnosis using a two -row by
twenty - column readout. The KDM provides local or remote
annunciation of operation and fault information, remote reset,
report generation, bumer control data and diagnostic
information. The KDM is part of the 7800 SERIES of
microprocessor -based bumer controls for gas, oil, coal or
combination fuel single burner applications.
The 7800 SERIES is programmed to provide a level of safety.
functional capabilities and features beyond the capadty of
conventional controls.
® U.S. Registered Trademark
Copyright ®1998 Honeywell Inc. • All Rights Reserved
•,
FEATURES
• Application flexibility.
• Communication intorfaco capability (RM78XX only).
• Dependable, long -term operation provided by
microcomputer technology.
• First -out annunciation and system diagnostics
provided by a 2 -row by 20- column display.
• First -out expanded annunciation with 24 limit and
interlock Light Emitting Diodes (LED).
• Local or remote annunciation of operation and fault
information.
• Remote reset.
• Report generation.
• Burner controller data:
— Sequence status.
— Sequence time.
— Hold status.
— Lockout/alarm status.
— Flame signal strength.
— Expanded annunciator status.
— Total cycles of operation.
— Total hours of operation.
— Fault history of six most recent faults:
• Cycles of operation at time of fault.
• Expanded annunciator data at time of fault.
• Fault message and code.
• Hours of operation at time of fault.
• Sequence status at time of fault.
• Sequence time at time of fault
— Diagnostic information:
• Device type.
• Flame amplifier type.
• Flame failure response time (FFRT).
• Manufacturing code.
• On -Off status of all digital inputs and outputs.
• PREPURGE time selected.
• Software revision and version of 7800 SERIES
Relay Module and KDM.
• Status of configuration jumpers.
• Status of RunlTest Switch.
7800 SERIES S7800A KEYBOARD DISPLAY MODULE
SPECIFICATIONS
Electrical Ratings:
Voltage and Frequency: 13 Vdc peak full wave rectified
(+201-10%).
Power Dissipation: 7W maximum.
VA Consumption: 2 VA maximum.
Terminal Ratings:
Power: 13 Vdc peak full wave rectified.
Earth Ground.
Environmental Ratings:
Ambient Temperature Ranges:
Operating: -40 °F ( -40 °C) to +140 °F ( +60 °C).
Storage: -60 °F ( -51 °C) to +150 °F ( +66 °C).
Humidity: 85 percent relative humidity continuous,
noncondensing,
Vibration: 0.5G environment.
Mechanical:
Dimensions: See Fig. 1.
Weight: 4 ounces (124 grams), unpacked.
Display:
40 character (2 rows by 20 columns).
Languages:
578UUAIUU1 tngiish language display.
S7800A1035 French language display.
S7800A1043 German language display.
S7800A1050 Italian language display.
S7800A1068 Spanish language display.
S7800A1118 Japanese (Katakana) language display.
S7800A1126 Portuguese language display.
ORDERING INFORMATION
Honeywell
BURNER CONTROL
etp°.t .CC{ H
t0O4 CTu6.0
1.16/16
(49)
f
T/ '–
29/32
l r (23)
115! 5132 (4 )
32
(12)
4-27/32 (123)
4-3/32 (104)-4.
19!32 1 -1/4 1 -1132
(15) (32) I (26)
7/16(11) 1.11./.0
•— 2 -7/16 (82)
l'"'
u 5,15
3-7!8 (99) 32! (6)
(11)
M50028
F g. 1.Approximate dimensions of S7800 in in. (mm).
Approvals:
Underwriters Laboratories Inc. Listed:
File No. MP268, Guide No. MCCZ.
Canadian Standards Association Certified:
No. LR9S329 -3.
Factory Mutual Approved: Report No. J.1.1 V9AO.AF.
(RI: Acceptable.
Federal Communications Commission: Part 15,
Class B emissions.
EN60730: For compliance with remote KDM mounting
requirements, provide electrical Insulation separation by
insulation using double or reinforced insulation. Do this
by: Optically isolating the communication or remote
reset lines from the control cabinet, or provide physical
separation trom the communication or remote display
cover assembly (part number 204718A) or other
suitable enclosure that meets the 1P40 class of
protection.
When purchasing replacement and modernization products from your TRADELINE® wholesaler or distributor, refer to the
TRADELINE® Catalog or price sheets for complete ordering number.
If you have additional questions, need further information, or would tike to comment on our products or services, please write or
phone:
1. Your local Home and Building Control Sales Office (check white pages of your phone directory).
2. Home and Building Control Customer Logistics
Honeywell Inc., 1885 Douglas Drive North
Minneapolis, Minnesota 55422 -4386 (612) 951 -1000
In Canada —I loneywell Limited /I loneywell Limitee, 155 Gordon Daker Road, North York, Ontario M21 13N7.
International Sales and Service Offices in all principal cities of the world, Manufacturing in Australia, Canada, Finland, France,
Germany, Japan, Mexico, Netherlands, Spain, Taiwan, United Kingdom, U.S.A.
65- 0090 -3 2
I
KN-30 Water and Air Sensors
SENSORS
onal 3/4" brass lagging well #830013
NEMA 3R System Sensor #10K4OW
1/2" MIPT x 4" Thermowell
Optional 3/4" brass lagging well #25C -613
Optional NEMA 4 Enclosure
Product Specifications
Sensor Output: 10K Ohms @ 77F (25C) Type 11
Accuracy (0 to 70C): +/ -0.2C ( +/ -0.36F)
Stability: +/ -0.13C (0.23F)
Operating Temperature Range: -40 to 302F (-40 to 150C)
Operating Humidity: 0 to 90% RH non - condensing
Outdoor Air Sensor #10KOUTDOOR
VENT SYSTEM OPTIONS
All venting is required to be as per factory IOM or Factory Approved Engineered Venting System. Contact local factory
representative for venting layout assistance.
The KN may be vented the following ways:
1) Direct Vent — Positive Pressure, Category IV uses a vent system certified to UL 1738 for installations in the United
States, ULS636 for installations in Canada. Combustion air is piped from the outdoors to the blower inlet.
2) Side Wall Vent — Positive Pressure, Category IV uses a stainless steel vent system certified to UL 1738 for
installations in the United States, ULS636 for installations in Canada. Combustion air is obtained from the space in
which the unit is installed.
3) Vertical Vent — Positive Pressure, Category IV uses a stainless steel vent system certified to UL 1738 for installations
in the United States, ULS636 for installations in Canada, Combustion air is obtained from the space in which the unit
is installed.
4) Vertical Vent — Negative Pressure, Category I! uses an approved metal chimney system. Combustion air is obtained
from the space in which the unit is installed.
CONDENSATE PIPING
The condensate trap provided with the boiler must be attached to the bottom pan and piped to a suitable floor drain
(consult local code) or condensate pump. If a condensate neutralization device is installed, it must be positioned prior to
boiler room drain. Fill the condensate fill trap with water and antifreeze solution prior to start-up.
Foster High School
1)
)
Condensate Acidic Neutralizing Tubes
Data Sheet
DESCRIPTION
Residential and commercial flue side neutralizing tubes are designed to raise the PH level of the
condensate discharged by high efficiency boilers and warm air furnaces. The condensate traveling
through the JJM tubes has it's PH level increased by approximately 10 -1,000 times higher towards a
more neutral point.
PH
The PH level of condensate is the measurement of the water's acidity or alkalinity, 7 PH is considered
to be neutral and safe for material and the environment. PH levels below 7 are considered to be acidic;
the level of acidity can damage such materials has cast iron soil pipe, ABS pipe, septic tanks, plants,
wastewater treatment plants, and materials not limited to these. A PH of 4 is 10 times more acidic than
a PH of 5, our tubes are designed to raise the PH level approximately 10 -1,000 times higher towards a
more neutral level.
STANDARD FEATURES
* Channel Strut Base Mounted
* Nylon Barbed Fitting
"r4" and 'A" Aggregate Calcium Carbonate
* PVC Tubing
*Galvanized Strut Clamps, Bolts, and Nuts
FEATURES
RATINGS & DIMENSIONS (in Inches)
Item
Description
Model
MBH
GPH
A
BC
D
E
F
1
PVC tubing filled with'/" and 34" aggregate
calcium carbonate
JM-2
200
2
15
2'/,
3'/6
N/A
2'/.
2%
2
Channel strut mounts
JM-6
600
6
14'/
4
6
10%,
31/2
21/2
3
Galvanized strut clamps, bolts and nuts
JM -10
1,000
10
19
4
6
16 '/a
31/2
21/2
4
Condensate outlet hose barb fitting
JM -2 to - 30:3" hose barb x 1" NPT
JM -20
2,000
20
19%a
5
6
16'i
°
4'h
3'i
°
5
Condensate Inlet hose barb fitting
JM-40 to -50: 1" hose barb x: NPT
' /
JM -30
3,000
30
24'/a
5
6
21
4'/
3'i
e
e
Plugged alternate location for condensate
inlet hose barb fitting
JM-40
4,000
40
221/2
7'/16
8
19
7'%
4%
JM -50
5,000
50
28'/a
7'/16
8
24
71/2
41/2
Optional 3/4" Inlet on models JM-6 through JM -30
Suggested specificait on s
I. The contractor shall supply and install fireside condensate
neutralizing tubes for each boiler condensate drain and all
flue pipe condensate drains.
2. The condensate tubes shall be designed to raise the PH level
10-30 times more towards the neutral point of the PH being
discharged by the boiler or furnace.
3. The neutralizer tube or tubes shall be Model ( ), as manu-
factured by JMM Boiler Works.
4. The installing contractor shall supply all boilers/furnaces and
vent condensate drains with "P- traps" and unions before the
neutralizing tubes.
5. All piping shall be PVC and supplied/Installed by the con-
tractor. Plastic tubing is an acceptable alternative when used
with barbed fittings and hose clamps. All PVC joints shall be
glued in place and all barbed fittings shall be secured with
tie wraps.
6. The boiler and flue condensate drains shall not be combined
into one neutralizer. All piping shall be per manufacturer's
piping diagrams and directions. All neutralizing tubes shall
be secured to the floor or wall so as not to be exposed to
damage or within a normal walkway. The contactor shall fill
all "P-trap? and neutralizing tubes with tap waterbefore the
firing of any boiler.
7. The contractor shall inform the owner of any maintenance
or scheduled recharge of the tube's limestone aggregate as
described in the manufacturer's I and 0 manual.
JJM Boiler Works
1
Condensate Acidic Neutralizing Tubes
Installation, Operation & Maintenance
Overview
What is pH?
The pH measurement of a fluid is an indicator of the acidity or alkalinity. Neutral fluids have pH of 7.0.
Acid fluids have pH below 7. And alkaline fluids have pH above 7 (up to 14), The pH can be easily
measured using litmus paper,
Condensate from condensing boilers and fumaces is typically around 4 (slightly acidic). The
condensate needs to be increased (made more neutral) to prevent possible amage to cast iron soil
pipe, ABS pipe, septic tanks, plants, wastewater treatment plants and other materials handling waste
water.
JM- serles condensate neutralizing tubes increase pH (reduce acidity).
JM -series residential and commercial flue -side neutralizing tubes are designed to raise the pH level of
the condensate discharged by high - efficiency boilers and warm air furnaces.
Each change of 1.0 in pH is a 10 -times reduction (or increase) in concentration. The pH of
condensate is increased by approximately 1.0 to 3.0 higher after passing through JM neutralizing
tubes. (This is a change in concentration of from 10 to 1,000 times.)
Figure 1 JM series Condensate Neutralizing Tubes - features and dimensions
A
D
•a- B —d
G....• --►.
FEATURES
RATINGS & DIMENSIONS an inches)
Description
Model
ri1 O
GPH
A
E
CD
■
Lett aide
■
PVC tubing filled with /" and %" aggregate
calcium carbonate
•a- B —d
G....• --►.
FEATURES
RATINGS & DIMENSIONS an inches)
Item
Description
Model
MBH
GPH
A
E
CD
E
F
1
PVC tubing filled with /" and %" aggregate
calcium carbonate
JM -2
200
2
15
2'/,
314
N/A
2'h
2%
11/6/2009
FEATURES
RATINGS & DIMENSIONS (in inches)
Item
Description
Model
MBH
GPH
A
B
C
D
E
F
1
PVC tubing filled with W and' /," aggregate
calcium carbonate
JM -2
200
2
15
2%
3',1i
N/A
2%
2%
2
Channel strut mounts
JM-6
600
6
14'/,
4
6
10'
3%
21
3
Galvanized strut damps, bolts and nuts
JM -10
1,000
10
19
4
6
16 %
314
234
4
Condensate outlet hose barb fitting
JM -2 to -30:' " hose barb x I" NPT
JM -20
2,000
20
1934
5
6
16 %
4%
3''i
5
Condensate inlet hose barb fitting
JM-40 to -50: 1" hose barb x' /," NPT
JM -30
3,000
'
30
24'34
5
6
21
4%
3
6
Plugged - alternate location for condensate
inlet hose barb fitting
JM-40
4,000
40
22'/z
7'r„
8
19
71
4' /z
JM -50
5,000
50
2814
7'io
8
24
714
434
Applying JM-series neutralizing tubes
Condensate can be collected from flueways and boiler /fumace condensate trap outlets. Use a
separate neutralizing tube for each connection. DO NOT combine condensate lines from flueways
with those from boiler/fumace condensate traps. Match neutralizing tubes to boiler /furnace ratings.
Locate the JM- series neutralizing tube below the condensate connection and slightly above the floor
drain or inlet to a condensate pump reservoir (if used).
Follow the guidelines in this manual, the boiler /furnace manual and all applicable local codes when
installing, using and maintaining JM- series condensate neutralizing tubes.
Installation
WARNING
Application - Flue gas condensing boilers, fumaces, and
breeching condensate drains only.
DO NOT exhaust flue gases through JM tubes, they are
not rated for boiler of furnace flue gases. Operating JM
tubes as exhaust vents can cause injury or death from
carbon monoxide.
DO NO I combine vent condensate drain lines and
boiter/fumace condensate lines. Use a separate JM tube
for each application.
JM tubes must be installed below system P -traps, boiler,
fumace, and breeching condensate drains.
Gas traps must be installed btween the boiler, vent
drains, and furnace condensate outlet and the inlet of all
JM tubes.
Before operating the boiler or furnace fill the JM tube and
traps with tap water.
NEVER operate with tubes or P -traps dry.
Tubes should be recharged yearly (every 2,000 operating
hours), or when pH level moves below 6.
Failure to comply with these guidelines could result in
severe injury, death or substantial property damage.
Figure 2 JM tube application with floor drain. typical
Figure 3 JM tube application with condensate pump, typical
}
LEGEND
A Condensing boiler or fumace
B JM condensate neutralizing tube
C Boilerifumace condensate trap connection
D Boiler /furnace vent
E Vent condensate trap, when used — Install a trap as shown. Connect the tubing to a separate JM tube.
DO NOT combine with the boiler/fumace condensate tine.
F Floor drain or sump
G Condensate pump
H Bottom of boiler/fumace condensate outlet — MUST be ABOVE bottom of JM tube condensate outlet
J Bottom of JM tube condensate outlet
L Mounting pad or structural platform, when required to elevate boiler condensate drain as needed
M Unistrut bases -- bolt to floor, wall or mounting pad
N Unistrut clamps --- secure tube in position and clamp securely — NOTE that the condensate outlet must be
oriented UP, with the condensate inlet into the side,
P Plastic tubing or PVC pipe — When using PVC pipe, remove the JM inlet and outlet hose barb fittings and
replace with threaded PVC fittings. Include unions in the piping to allow removal of the JM tube for inspection
and service. — Secure pipe or tubing in place. — Protect with a shield if necessary if routed through traffic
areas.
R Use hose clamps at all connections when using plastic tubing.
S Condensate drain termination at floor drain or condensate pump reservoir inlet — secure in place with
clamps. — Follow Instructions for condensate pump.
T Elevate the JM tube on a structural base if necessary for the outlet to be raised.
U Route discharge line from condensate pump assembly per instructions supplied by pump manufacturer.
Installation sequence
1. Securely fasten the two unistrut bases (item M) to floor or wall.
2. Mount tubes across bases and secure with t`- two unistrut daps (item N).
3. Connect plastic tubes or PVC piping from ai.,,dance or breeching drains to P -traps and then from P -trap
outlet to either one of the two JM tube inlets.
4. Connect the JM tube outlet to house drain or condensate pump.
5. use Teflon tape on all threaded plastic finings.
6. NOTE — Always contact the local authority in regards to any requirements conceming flue gas condensate
handling codes.
Maintenance
Inspect frequently
Installer — Instruct the building owner to frequently inspect the JM tube and all condensate
connections. The owner must notify a qualified technician if any problems are noticed.
Recharge annually or every 2,000 operating hours
Installer — Have the building owner schedule an annual (or every 2,000 operating hours) recharge of
the JM tube. Contact JJM Boiler Works for replacement parts.
WARNING
Before operating the boiler or fumace fill the JM tube Tubes should be recharged yearly (every 2,000 operating
and traps with tap water. hours), or when pH level moves below 6.
NEVER operate with tubes or P-traps dry. Failure to comply with these guidelines could result in
severe personal injury, death or substantial
property damage.
KN- 30 2 PSI Gas Inlet Natural Gas
D Economical
D Light weight
D Protects equipment from shock
damage
D Large 12" diaphragm for better
outlet pressure control
D Unmatched overpressure
protection with Internal Monitor
plus Internal Relief (IMR) option
Features
• Interchangeable brass orifice
• 78 in' of diaphragm area
• Spring - loaded internal relief valve
assembly
• Field interchangeable adjustment
spring
• Controlled size breather orifice
eliminates pulsation and provides
normal action at low flows
• Wide range of valve body sizes
including NPT and Range
connections
1334 Series Regulator
Commercial & Industrial Regulator
Applications
Appropriate for many commercial and
industrial uses such as gas engines, burners,
furnaces, and boilers. The rapid response of
the B34 is particularly well - suited for mid-
range applications where quick on/off loads
cause shock problems.
Description
D B34N
The B34N is a spring loaded self - operated
regulator with no internal relief, an adjustable
loading ring for controlled boost at higher
flows, and a precision breather opening to
ensure proper stability for all conditions. This
regulator can be used on low or intermediate
inlet pressures where an internal relief, or
other type of over - pressure protection device
is not required.
B34R
The B34R is the internal relief version of the
B34 Series. This model features an
adjustable loading ring for controlled boost at
higher flows, a precission breather opening to
ensure proper stability for all conditions, and
a 1' internal relief valve.
B34DN
The B34DN is a standard B34N with a
closed throat, downstream control tap on the
bottom of the lower diaphragm case, and no
internal relief capabilities This unit is used
when it is desirable to control the regulator
from points other than the valve outlet. Since
the control point is no longer at the outlet of
the valve body the regulator does not boost,
but all of the capacity tables are the same as
the R and N models.
B34DR
The B34DR is the same as the B34DN,
except it has internal relief similar to the
B34R.
B34MN
The B34MN is very similar to the B34DN
with a closed throat, downstream control line,
and no internal relief capabilities, except for
an 0 -ring seal on the valve body stem
through the throat to assure positive
downstream control when installed ahead of
a downstream regulator. Used in a series
monitoring installation as the upstream
regulator, this unit gives customers an
operating device that assumes control over
an operating regulator when failure is sensed
by the control line of the monitor. This series
system assures maximum safety with
uninterruped service. The monitor regulator is
set to take over control form the operating
regulator with only a slight increase in outlet
pressure
D B34MR
The B34MR is the same as the B34MN,
except it has internal relief similar to the
B34R.
Correction factors for non -
natural gas applications:
The 834 may be used to control gases
other than natural gas.
To determine the capacity of the B34
for gases other than natural gas, it will
be necessary to multiply the values
within the capacity tables by a correction
factor.
The table below lists the correction
factors for some of the more common
gases
Air 1.00 0.77
Butane 2.01 0.55
Carbon
DioxidelDryi 152 063
Carbon
Monoxide (Drvl 0.97 0 79
Natural Gas 0 60 1 00
Nitrogen 0.97 0 79
Propane 153 063
Propane - Air -Mix 1 20 0 71
To calculate the correction factor for
gases not listed on the table above, it
will be necessary to know the specific
gravity of the gas and use it in the
formula listed below.
Correction Factor ( CF) =
2
SG,
SG2
Where:
SG, = Specific Gray ry of the gas in
which the capacity is published
SGi = Speak Gravity of the gas
to be controlled
Construction
Actaris takes pride in delivering American made products with the utmost concern for safety,
quality and customer satisfaction.
Material Construction:
Valve Body:
Orifice:
High tensile strength cast iron
Brass
Valve Seat:
Valve, Stem:
lever Pin:
Lever.
Stem Guide
Upper Diaphragm Plate:
Lower Diaphragm Plate:
Diaphragm
Vent Valve/Seat:
Vent Screen:
Adjustment Ferrule:
Seal Cap:
Diaphragm Case:
Buna -N or silicone (for temperatures below -20F)
Plated Steel
Stainless steel
Zinc and dichromate plated steel
Stainless steel
Zinc and dichromate plated steel
Die Cast Aluminum
Buna -N and nylon
DelnnVBuna -N
Stainless Steel
Die cast aluminum
Die cast aluminum
Die cast aluminum
Shipping Weight:
1 per box
24 Ibs
D option Designations
Al No Internal Relief
IR Internal Relief
UN Downstream Lontro with no
Internal Relief
DR Downstream Control with Internal
Relief
MN Monitor with no Internal Relief
MR Monitor with internal Relief
1MR Internal Monitor with Internal Relief'
IMN Internal Monitor with no Internal
Relief'
IMRV Internal Monitor with Internal Relief
and Vent'
'Consult Product Bulletin or your Actaris Sales
Representative for Internal Monitor
Performance Data
1
Specifications - B34 N
M & D Models
1,s.. ; - , 4 Spring Color ; µOutlet Pressure Range , y
d►
Standard Spring Data - B34
Orange
3.0' w.c - 5 0' w.c
Brown
Green
4.0'wc. - 6.5'wc
5.0' w.c. - 8.0" w.c
Black
6 5' w.c. - 13.0' w.c
Purple
9.1 "w.c - 208'w.c
Blue
15.0 " wc. - 280'wc
Silver 1.0 PSIG - 2 PSIG
Yellow
2.0 PS1G - 4.5 P516
Red - Nested
4.0 PSIG - 5.5 PS1G
White- Nested
4.8 PS1G - 7.3 PSIG
Orifice Data - Wide Open Flow Coefficients and Maximum Pressure Data
Orifice
K "- Facior
114'
1/4 "x318"
3/8'
3/8'(1 /2'
1/2'
112'x5/8'
5/8'
518'x314"
314"
3/4'x718'
7/8'
7/8"x1'
125
R Models
125 PSIG
w cDfeiivery PSIG Delivery All Delivcnes art D liveries .t;°
Models « " ; e AIIIModels Ailtlodel r s A Ilflodels e j
175 PSIG
175 PSIG
300 PSIG
125
125 P516
125 PS1G
175 PSIG
300 P516
290
125 PS1G
125 P516
175 PSIG
300 PSIG
305
125 PSIG
125 PS1G
150 PSIG
300 P516
500
75 PSIG
125 PSIG
150 PSIG
300 PSIG
550
60 PSIG
125 PSIG
150 PSIG
300 PSIG
700
60 P516
125 PSIG
150 PSIG
300 PSIG
750
60 PSIG
100 PSIG
150 PSIG
300 PSIG
900
60 P516
100 PSIG
150 P516
300 PSIG
950
60 PS1G
100 PSIG
150 PSIG
230 PS1G
1200
GO PSIG
100 PSIG
150 PSIG
230 PStG
1245
25 PSIG
100 PSIG
150 PSIG
230 PSIG
60 PSIG
60 P516
60 PSIG
60 PSIG
60 PSIG
60 PSIG
60 PSIG
60 PSIG
60 P516
60 P516
60 PSIG
60 PSIG
1
Bod
v
w ,; Dimensions
."TyPe
02' ''
rsgm1l
i.4 .. B f a
C
:
5 -3/4'
2 -7/8'
8- 11 /16'
12 -3/4"
4 -5/16'
10'
2 -3116"
4 -1/2'
2 -1/4'
2'Flanged
10
5
8- 11/16'
12 -3/4'
4 -5/16'
10'
2 -3/16'
5 -1 /2'
3 -1 /4"
3' Flanged
10
5
8- 11)16'
12 -3/4'
4 -5/16'
10"
2 -3116'
5 -1/2'
3 -1/4'
1WrdcOpe7Flow Caierirelrons,
For wide -open orifice flow calculations use the following equations
For P1 /P2<1 89 use Q= K s/p2 (P1 - P2) For P1 /P2 >1 89 use Q = P1
P2 = absolute outlet pressure (psia)
K = orifice coefficient (scfh/psi)
1 Where P1 = absolute inlet pressure (psis)
Q = flow rate (scfh)
D Screwed Valve Body
H D
E
R
radius
c
D Flanged Valve Body
H D
R
radius
c
Available Vent Sizes: 1'
(Silicone valve seats available for
applications below -20F)
Loading Ring Position:
M & D Models - 0';
R & N Models for <1 PSIG set point -
21 degrees; >1 PSIG set point - 0'
D Valve Body Sizes
Inlet Outlet Screwed Flanged
1 -1/4' 1 -1 /4' X --
1-1/4' 1 -1/2' X —
1 -1/4" 2' X
l >) 1 -1i2' 1 -1/2' X —
1 -112" 2" X
2' 2' X X
3' 3" -- X
x - indicates that the valve body is
available in that configuration.
3
B34 Commercial & Industrial Regulator -
Models N, R, M, & D
7" w.c. (17.5 mbar) -
Capacity Table (1" w.c. Droop) - Continued*
Capacities in sdh (m'/hr) - Orifice Size
Pressure
PSIGA_' (Bar) (
a - 5,6
a4(d59rnmi' °
518" r
(15.9; rnm)
�7r�
(19r rm)
314" x 718
(i19.1xf22.2mm)
,� 7r8 rar
(23:200) tj
<� j(p3;X$
(22.2{325400)0,
8'wc (20 mbar)
500 (14.00)
635 (17.78)
675 (18.90)
725 (2030)
850 (23.80)
900 (25.20)
10'w.c (25 mbar)
750 (21.00)
850 (23 80)
900 (25.20)
1050 129.40)
1150 (32.20)
1225 (34.30)
12'w c. (30 mbar)
950 (26.60)
1050 (2940)
1100 (3080)
1250 (35.00)
1425 (39.90)
1550 (43.40)
14'wc (35 mbar)
1175 (32.90)
1200 (3360)
1250 (3500)
1525 (42.70)
1700 (47.60)
1900 (53.20)
16'wc (40 mbar)
1175 (32.90)
1350 (3780)
1550 (4340)
1700 (4760)
1950 (54.60)
2050 (57.40)
18'wc (45 mbar)
1275 (35.70)
1575 (44.10)
1750 (49.00)
1825 (51.10)
2050 (57.40)
2350 (65.80)
21'w.c, (52 mbar)
1500 (4250)
1750 (49.00)
1800 150 40)
2100 (58.80)
2350 (65.80)
2700 (75.60)
24'wc (60 mbar)
1700 (47.60)
1950 (54.60)
2100 (58 80)
2250 (63.00)
2700 (75 60)
3000 (84.00)
1 (69 mbar)
2200 161.60)
2200 (61.60)
2300 (64.40)
2400 (67.20)
2700 (75.60)
3200 (89.60)
l2 (0138)
3000 (8400)
) 3300 (92.40)
3700 (103.60)
4000 (11200)
4500 (126.00)
4700 (131,60)
3 (0.207)
4000 (112.00)
4200 (117.60)
4400 (123.20)
4600 (128.80)
5200 (145.60)
6000 (168.00)
5 (0345)
5100 (14280)
5700 (159.60)
6800 (190.40)
7000 (196.00)
7500 (210.00)
8000 (224.00)
10 (069)
8500 (23800)
9000 (252.00)
10000 (28000)
10000 (280.00)
10000 (280.00)
10000 (280.00)
20 (1.38)
10000 128000)
10000 (280.00)
10000 1280.00)
10000 (280.00)
10000 1280.00)
10000 (28000)
30 (2.07)
10000 (28000)
10000 (28000)
10000 (280.00)
10000 (28000)
10000 (280.00)
t1.vrrr »:vw °v
40 (2.76)
10000 (280.00)
10000 128000)
10000 (280.00)
10000 (28000)
10000 (28000)
50 (345)
10000 (280.00)
10000 (280.00)
10000 (280.00)
10000 (280.00)
10000 (280,00)
60 (4.14)
10000 (28000)
10000 (280.00)
10000 (28000)
10000 (280.00)*=
tir` .,1 _
r';; q's
70 (483)
) xd :, ,t` � ..
x
rra �'�
1 > �
80 (552)
F.Fe4 ty::1, '" K E! y t f�'3'"�+s & y2 ) f >
���.x 3�,f '�> �[" ���'
90 (6 21)
r.. 3 i,,
100 !6.901
i4 :k.
{ y)sY ' ` 9rf4 iL � iA•4 + R av t �[�y.`._ �� S n*r4.LVr. }} A Y
..,aA '''‘.
.•, a ,i1 n;, -r'
125 (8.63)
, ?rL, ' _,R r Yr r �t a xs' '.
Change in outlet fora
10 PSIG (0.69 Bar)
inlet change
0 4' we
(1 0 mbar)
0.5' w.c.
(1.3 mbar)
0.5' w c
(1.3 mbar)
0.5' w.c
(1.3 mbar)
0.6' w.c
(1.5 mar)
0.6' w.c.
(1 5 mbar)
increase in cute(
pressure required for
no flow
1.0- we
(2 5 mbar)
1 Cr' w(
(2.5 mbar)
1 1' w c
(2 8 mbar)
1.1' w.c
(2.8 mbar)
11' w.c
(2.8 mbar)
1 1' w.c.
(2.8 mbar)
0o not use this orifice size at this inlet pressure
5
Typical Performance Curves
Manufacturer. Actaris
Type and Model. B34R
Regulator: Inlet Size 2' NPT
Outlet Size 2' NPT
Orifice Size 114' x 318'
Spring Green
Set Point 7.0' we with 40 PSIG inlet Qa 200 scfh
All test results are reported at a base of 14 7 P51A
and 60 F
Relief Curves
Manufacturer:
Actaris
Type and Model.
B340
Regulator. Inlet Sae 2' NPT
Outlet Size 2' NPT
Vent Size 1' NPT
Set Point 7.0' w c with 40 PS(G inlet 200 scfh.
All test results are reported at a base 0114 7 PS1A
and 60 F
6
B34 Com ercial & Industrial Regulator -
Models N R, M, & D
7" w.c. (17.5 mbar)
B34 REGULATOR PERFORMANCE - 7" w.c. SET POINT
OUTLET PRESSURE INCHES WATER COLUMN
a
8.5
8
7.5
6.5
6
5.5
5
1.5
4
�__
�„��"_
20 PSIG
40 PSIt
0 PSIG
50 PSIG
60 PSIG
�0
PSIG
500 1000 1500 2000 2500 3000
RATE OF FLOW - CUBIC FEET PER HOUR
0.6 SP. GR. GAS - 14.7 PSIA - 60 F
3500
B34R RELIEF CURVES - BLOCKED OPEN - 7" w.c. SET POINT
20
18
16
a 14
12
10
S 8
6
4
2
0
0
4000
-RIMIVA ----
�%�%!!'%� -�.'
3+"8x112
378
114x3'8
114
10 20 30 40 50 60 70
INLET PRESSURE PSIG
0.6 SP. GR. GAS - 14.7 psia - 60 F
90 100
SAFETY NOTES:
D A. The maximum inlet pressure for this
regulator is dependent upon the size of
the orifice and model designation. The
non - relief models are limited to 60 PSIG
maximum inlet pressure unless addition
safety devices are used as outlined m
DOT code, OPS, Part 192, section
192.197.
D B. When these models are used on
liquid petroleum gases, they should be
restricted to second -stage pressure
reduction in the gaseous phase.
30
Installation
D A. Make certain all shipping plugs are
removed from the inlet, outlet and vent of any
regulator before installation.
D 8. When installing the regulator, the inside of
the piping and the regulator inlet and outlet are
to be clean, free of dirt, pipe dope and other
debris to prevent entry into the regulator which
could cause loss of pressure control.
D C. The pipe joint sealant should be applied on
the male threads of the pipe. Do not use any
pipe joint material on the female threads of the
regulator or it could become lodged in the
regulator causing possible loss of pressure
control.
D D. Gas must flow through the valve body of
the regulator In the same direction as the arrow
cast on the body, or the outlet side of the
regulator may be overpressured and damaged.
D E. The diaphragm casing may be mounted in
any position relative to the body through a full
360' angle
1' F. When the regulator is installed OUTDOORS,
the vent must always be positioned so that rain,
snow, moisture or foreign particles cannot enter
the vent opening, It is recommended that the
vent be positioned to face downward so as to
avoid entry of water or other matter which could
interfere with the proper operation of the
regulator. The vent should be located away from
building eves, window openings, building air
intakes and above the expected snow level at
the site. The vent opening should be inspected
periodically to insure it does not become blocked
by foreign material.
D G. When the regulator is installed INDOORS,
the vent must be piped to the outside
atmosphere while using the shortest length of
pipe, the least number of elbows, and having as
large a pipe diameter as the vent size or larger,
USING VENT PIPE ANY SIZE SMALLER THAN
THE VENT CONNECTION WILL LIMIT THE
REGULATOR'S INTERNAL RELIEF VALVE
CAPACITY. The outlet end of the pipe must be
protected from moisture and the entrance of
foreign particles. The regulator should be
specified by the user with the size vent and pipe
threads desired to make the vent pipe
connection.
START -UP PROCEDURE
D A. A pressure gauge should be mounted
downstream of the regulator to monitor the
downstream pressure.
D B. With the downstream valve dosed, slowly
open the inlet valve. The outlet pressure should
nse to slightly greater than the set - point.
D C. Be sure there are no Teaks and all
connections are tight
D D. The regulator has been preset at the
factory to match specrfications given when it
was ordered. The outlet pressure may be
adjusted by removing the seal cap on top of
the spring housing and adjusting the ferrule or
screw inside the spring housing using a ratchet
with a socket and an extension. With a small
amount of gas flowing through the regulator,
rotate the ferrule clock -wise to raise the outlet
pressure and counter - clockwise to lower the
outlet pressure.
D E. After the desired outlet pressure is
achieved, replace the seal cap, recheck for
leaks. The regulator is ready for operation.
SAFETY WARNING:
This product, as of the date of manufacture,
is designed and tested to conform to all
governmental or industry safety standards then
existing as may apply to the manufacturer.
D The purchaser and user of this product are
warned that compliance with the manufacturer's
instructions and procedures is required in order
to avoid the hazards of leaking gas resulting
from improper installation, start-up or use of
this product and further, that all area fire
control, building codes or other safety
regulations which regulate or concern the
application, installation, operation or general
use of this product should be complied with.
D In order to insure the safe and proper
operation of this product, the manufacturer
recommends that this product be installed by a
qualified installer.
Vent Lines for Regulators
When constructing vent lines to be attached to regulators installed indoors, a few basic rules must be followed
1. Never use pipe sizes smaller than the vent size itself; anything smaller will restrict the flow of gas. If a long
run must be used, it is advisable to increase the pipe one size every ten feet in order to keep the flow
restriction as low as possible.
2 Keep the length of vent line as short as possible to minimize the restriction as well as reduce the tendency for
the vent piping to cause pulsation of the regulator.
3. Support the vent pipe so there is no strain on the regulator diaphragm case
4 Always point the end of the vent pipe located outside the building to the downward position to reduce the
possibility of rain, snow, sleet etc. from entenng the pipe. A bug screen should be installed in the end of the
pipe.
5. The terminus of the vent line must not be located near windows, fans; etc. See the installation instructions
furnished with the regulator.
6 All applicable codes and regulations must be adherred to.
7 Vent pipe may cause regulator pulsation If this situation occurs, please consult your regulator representable
or the factory.
8 It is strongly recommended that a separate vent line be run for each regulator; a header with other devices
installed in it can cause regulator malfunction.
9 If approved by the authority having jurisdiction, the vent lines may be marinaded inaccordance with accepted
engineering practices to minimize backpressure in the event of diaphragm failure
Assembly Positions
PLOW
PLOW
F%OW
FLOW
PLOW now
31
Limited Warranty
Actaris U.S. Gas, Inc, 970 Highway 127
North, Owenton, Kentucky 40359 -9302,
warrants this gas product against defects in
materials and workmanship for the earlier of
one (1) year from the date the product is
shipped by Actaris or a period of one year
from the date the product is installed by
Actaris at the original purchaser's site. During
such one -year period, provided that the original
purchaser continues to own the product,
Actaris will, at its sole option, repair any defects,
replace the product or repay the purchase
price
• This warranty will be void if the purchaser
fails to observe the procedures for installation,
operation or service of the product as set
forth in the Operating Manual and
Specifications for the product or if the defect
1s caused by tampering, physical abuse or
misuse of the product.
D Ordering Information
Specify.
1 Inlet and Outlet Connection Size and Type
2. Model Number
3 Outlet pressure desired
4. Inlet pressure range
5. Type of gas and maximum capacity
required
6. Assembly position number (see page 31)
7. Vent size
8. Special requirements such as tagging,
118" pipe plug tap, seal wire, etc
• ACTARIS SPECIFICALLY DISCLAIMS ALL
IMPLIED WARRANTIES INCLUDING THOSE
OF MERCHANTABILITY OR OF FITNESS FOR
A PARTICULAR PURPOSE. UNDER NO
CIRCUMSTANCES WILL ACTARIS BE LIABLE
FOR INCIDENTAL OR CONSEQUENTIAL
DAMAGES OF ANY KIND WHATSOEVER.
• Actaris' liability for any claim of any kind,
including negligence and breach of warranty
for the sale and use of any product covered
by or furnished, shall in no case exceed the
price allocable to the product or part thereof
which gives rise to the claim.
• In the event of a malfunction of the product,
consult your Actaris Service Representative or
Actaris U.S. Gas, Inc, 970 Highway 127
North, Owenton, Kentucky 40359 -9302.
See Actaris Terms and Conditions of Sale for
the full and complete terms of the limited
Warranty.
- Product Overview, JOB
D Reference Information:
Actaris U.S. Gas, Inc.
970 Highway 127 North
Owenton, Kentucky 40359 -9302, USA
For more information, wwwac tar isusgascorn
tel +1 800 490 0657
+1 502 484 5747
fax +1 502 484 6223
Project: LIVERMORE, CA 94550
Date: 1/24/2011
Engineer: XXX
page: 1 of 2
HYDROTHERM KN -30 BOILER SEISMIC ANCHORAGE (ASCE 7 -05)
Slab on Grade Applications Oniv
Equipment Parameters:
weight, Wp =
w=
L=
h=
cg =
Seismic Parameters;
Ss =
ap =
Ip =
Rp
F8 =
SMS = Fa Ss =
SDS = 2/3 *SMS
3500.00
25.06
69.46
74.32
31.85
1.798
1.000
1.000
2.500
1.000
1.798
1.199
Seismic Design Category =
Seismic Force:
LBS.
In.
in.
in.
in.
ASCE 7 -05 Figure 22 -1)
(ASCE 7 -05 Table 13.6 -1)
(ASCE Table 11.5 -1) Seismic Use Group = 111 .J
Site Class =1 B .,
(Default value for Anchorage per ASCE 7 -05 Table 13.6 -1)
(ASCE 7 -05 Table 11.4 -1)
(ASCE 7 -05 Eqn. 11.4 -1)
(ASCE 7 -05 Eqn. 11.4 -3)
D
Fp = (0.4'ap *SDS Wp) /(Rp/Ip) =
Upper Limit: FpMAx= 1.6'Sos ip'Wp =
Lower Bound: FPM N = 0.3'SDS'IP Wp =
Fp, DESIGN =
671.3
6712.5
1258.6
1258.6
LBS. (ASCE 7 -05 Eqn. 13.3 -1)
LBS. (ASCE 7 -05 Eqn. 13.3 -2)
LBS. (ASCE 7 -05 Eqn. 13.3 -3)
LBS.
Project: LIVERMORE, CA 94550 page: 2 of 2
Date: 4/19/2011
Engineer: XXX
HYDROTHERM KN -30 BOILER SEISMIC ANCHORAGE (ASCE 7-05)
Design Anchorage Force:
Horizontal Shear Force Per Anchor:
RH =F,/4=
Overturning Resistance About Point A:
314.7
LBS.
MOT = FP "c9 =
3340.5
3654.6
Vertical Acceleratio> .., assume • = 1.0
Ev = p *Fp + 0.2" "W
RVNETUP ° (M07 /(2 "x))- (W)4) +(Ev /4) _
Force Summary Per Corner:
Component Anchorage:
RHNET =
RVN
LBS. -FT.
x.
25.06
x = lesser of L or W
LBS.-FT. OK, No Uplift
in.
LBS. (ASCE Secti.; .3.1)
LBS. : ' o Upiftt
nchor Embedd r CMU:
1.3'RP'RHNET =
1 .3'Rp RVNETUP
1022.6
0.0
WP
x/2
.t, > P
x
0
PT. A
MOT = FP "c9 =
3340.5
3654.6
Vertical Acceleratio> .., assume • = 1.0
Ev = p *Fp + 0.2" "W
RVNETUP ° (M07 /(2 "x))- (W)4) +(Ev /4) _
Force Summary Per Corner:
Component Anchorage:
RHNET =
RVN
LBS. -FT.
x.
25.06
x = lesser of L or W
LBS.-FT. OK, No Uplift
in.
LBS. (ASCE Secti.; .3.1)
LBS. : ' o Upiftt
nchor Embedd r CMU:
1.3'RP'RHNET =
1 .3'Rp RVNETUP
1022.6
0.0
riq
R21 -I1
J
0
0
0
(/)
x
IOD
11
N
z w
Z 1Cs 0
2
I
1 Mho
0
Z
0
:'p
CO
CO
1 s E tC3 g
phi Ai 1r 0C C as 0
Cri � 99 i Gy fie$ •` a / p tp>" O ''''
Iliiialia * a I I I
wg la 1:3
Lsizg 12 .c)
is -0. "9 Gs
IL
0
C
1
LLB
ILLO
C1114%(
Ei
41 oc1,
r;# cis v oO
li°r� MI" 111��! 111 / N 118/ 1 11:11111 111
< 6 9 3 ®g 8 6 0® ®6 a ®S e 8 a e S 6 c e 9 m = 1 4 8 9 4 ®2 e n 8 }g e c e o s= 8 ti c e e a S e
1
+1
f
t! 1 0 1 g
° a a 8
j i� aei Mh 85 e I I w
1 II CI 1111 g
i ONE111
a
111E1 wr 5 I EE1 1 II 1 C
1 Ifs lh 1 1111110111"11m1-11
� g��8 11Ila @� 1 s6111111 n 1 °b111 "111 �i 11111�dea: �� 4� a114111/11M1a1 ;Ph
- lllSS.ssrna °88II•Ih reId8a9 >=• Qp.•et
i
II
fi
II
II
I
1-
1
II
1
1
> Imam
!!1 � 181s �$e1 111 I : I 11 � tl ■ ��e■ �I � qq �aj g g 1 S�g� y� �s ■Y A 4111111 � ai ° $ 8° �p @� �w �� g g @g @ga lei hill $� IGS �C � �� @� ihi Sr Sa ��4s 99 �� 9S ���a lel I di 9 g CCCg @@ iYl 4 ��� @C $ 1@ @p Y �SEa� 9 8 9 9
6=1166 38 18166 ?S yl 1111 8888 s1 69 ®D 8a2e8 9 mei 39 3181 88 8888 8888 .l188 Qa @d ° °88 a 8 HD 8 le .1,1• i elfi E 88 Q "RAI pt. 31183 6 Q 9 8
1 3� ap 8 1 1
a@@ I1 1 X1 Itl:
igni hii 11 tin hi Jib! I6 �� g � Ct�� CC C !hilt obi
VEMIljg6 eiIQ9nQ$ aBbagaegggggn6 aaQlBa°ngea 8C8dlgbhg8 &tiapppFeegneQlpg 818632 -589 II • Se S8 18288 5881 8181 6 - 9Be 8b3133:1
L
1
98891
hiNtigggn�
g_
v:rmIIi
i!!9!1
6�$��1
i
.
�i
�'
11
1
1
1 1
@3e
h
7 ;
91 1
1 8
1 1
p
5 i
1
5
1 9
Ili
ill
I
it!
MI
� @
n
9
111
1 5
it i
iii !
%o
ill @
ig i 1
voi
rtl@. id
a9nv iii
, 1
s
a
g
w
g
s
1
L
1
g
1 a
'
s
$
i' . II! 1/,
52. hi!
il oil
li a @1%
8a R�ieee
11
1
11
1E
pl
id11
li
2Ljk
1
ill
9
i
1
@ 111
1
1,
1 1
Q 9
i
1 , ip;
av 4 iiii
a@ :e1!!
N G
ii il
@@
e R
11 1
E
Q
5i
a�
ty!
yid
555
11
i 2
2
I 2
_
252 I
I I I
WASHINGTON STATE ENERGY CODE NOTES:
0
8
1
1
Q
e9
.E1.
it
i
.88.88
1 g
8
tl d
8
.88.
•88
. 8
888
8
8
a
Y
,y
s
88
,
88,88
88'8]
8
g
films
11198
8
8
88
813
II
J
Jill en
n
K
1
� �
9
1
@@
1@
i
9
ill
@@
Mill 011111 9 9 Q ° g 1 ge e 1
III a @ �� �s� , ! �� �9��� n olii g g9 11 1 1 1 111 ign !11a g e
1 ��e i Q 11 ' s! s 1 gieial 1Q,11 11 gF
PI41111 {� ° a a 0s �{ °8 k
� 11e 91 y a� Y 12 1$ i@ Qg ag 11 19111{ 111! .g @21
III i o gs n 11 @ 1 ! f 1I 11 i s 1 ; R ; g�
el�
hid' z 9°1389 Ig i 1n a @1 a II a� e� g �� g�g� @t
@a hid 1/ E 15�;!5!5ei z s1! 99 IIh5 °5le fi 1111 3 11 11
w 0 r a r r a_ w 4 4 r .2 • r 9
tl !°�b s p 9 n & tl re e s
ill ' g$e gli � � 4 � a a �@ 1 5135 a� @ �� @ gi III g@ °� �� W � gy '11 1 g g�Q� go S59 e 9 q g g �� � g 9!IQ a�G s : e A : I
Ili : 1 1 01 ! �1 I! is 11! 1 :I AAA 11 g • �� g @� °i E� @�' n 0.4 g �� ire 01 ig g. g II ! I
r • w • a r .. 11 /1 " Ph 91 P r s 13 w w 13 w r 13 pil !ii !I if 1 d s1 d 7S d A
1
1
5
2, 81
19911
z
0
0)
wo
00
JQ 0)
a zo
10
LLA
ff
LLB
a_
N-
o
2
J
r
OMECHANICAL ROOM DEMOLITION SECTION
OM IAN -p 0 r r r
O MECHANICAL ROOM SECTION
s r ( r
O MECHANICAL ROOM DEMOLITION SECTION
sae tH'•+' -a' e r e r
SZMONZEEel
00000
OMECHANICAL ROOM SECTION
E a t ' 1/ 4. + ' - 0 ' L
KEY NOTES
Qi mWm a4 115E WWI OM W
ormaort
OR mom as mot aauo= ao as
0 FEW tms mum
Q WADE ell alma
® s®u na Wwa+atw sr ourxw s
O. PWC EIS WOOS
S
0 MOW 10 NM RI IOW teRiE
nmeEM NE
w+ cow ao a. PPM 22,/161 ao
V06
tostE4aea ao ono Re teals
1
BOILER ROOM DEMOLITION PLAN
sae t/r -rte o r
4125 m 41010 to 100614
212 a0 400000+
VIM 0000
.• `ans,oaac M6
MO WM
3t212 ao2v221 10MY
10-,4' CAS 10 room 042
c00000010 s
DP21901 lae
REVIEWED FOR
CODE COMPLIANCE
APPROVED
AUG 2. 2 2011
City of Tukwila
ING DIVISION
RR 60
22 0/2
S• COBB Yed
r_ woo
W LO.
MOOR 02.121
2
P 101 CVW
ftra, watt
Iaea®ec no
MCP COW
)12S 00 00 W 02
ae1001�100102 W
IQial No a+ 0000 U
0Pa9a 1.e
01-10 as
BOILER ROOM PLAN RECEI� /E®
SOW +/s -r-0r e1�
AUG 10 2011
PERMITCENTER
instty
Of Isar Betting
00M ROLE S
PO aa2W
WM. 00O1ri
tm-eA -em
001!010 Em44
WOW a�
FOSTER HIGH SCHOOL
TUKWILA SD
4242 SOUTH 144TH STREET
TUKWILA, WA 98168
t>INStelk
o sa WsaWam
Anal_ +t_ as 0201 m®
e t n 10102 Ra MIT
MOWN WEIR
ENGINEERING
412810% mom
can 0000
11100(
fine
eH5-tt
E 0a
ow 1ms
MECHANICAL
BOILER ROOM PLAN
OEff MrS!
M2.0
•
i, MOE POPES EROS A ODOM MUM ODER Ora
1 AF9ola KIM SO Isis MOP ER IMP PM PPE 0E2
S. mesa WalEPP Oe1 UMW FER t2D10II DDO61d EMS m asee
• PERM= MI Fan Fa LOCO MOP PO OWEVA1136.
& NaTOa a samO d fui®T !R ®0971 AZ SEMI ME P OE POP Go AC
fist emt M MOP OF AO PR OYU. R [S0. in AC AO OE MOM V
BE 20130 fit BS
1 POW eaA ID MME ME M 2a ®e r POE em 22 Cam RlU} eee)
ma sr 2¢0 eER50ffi0) ea NM POI ~MOM MUM
VARIABLE VOLUME CONDENSING HEATING
OWATER BOILER INSTALLATION DETAIL
Aa m SAE
ONATURAL GAS REGULATING VALVE DETAIL
WE ID SOLE
ew
aultractEsucram
•6be.w
a
Ok2oiress
2.
tt
tfa•F; 6.
4. -ass.
arMASelerN.F
MOO.
66
OAP
Au
1.
h
m' •
m .-
NMI
Same OP.FCP•am7
SielmEacC
Tm Fbn 411 Sp Man. r
74316ap1101)
TMi 11.011 Ysmaa We ep -10
rb Iv An4erp pr Alec w TER► 1120
106111 1111)
741 tam. 11•,)
29 _- lw,.'V2.
Ipar LB. F�a- 1.s'Bal w,
tar Bond FAer - a29a1,1•
mJ
VMS
1154
184 WOE IC6 ET. MI+)
MI µS06 t66 &P 1222
1➢1 GaUCE 18609. 116'9
F, aalr -) ,Sys If,86
• COOP. 10201 OVUM /R OFT q0 Oa SAM, W IN RR
MI Flat MOM
a ruts 10 SWEI00086 G6N)e= MO RA SOU van tematof eR
AMOK REM EMMi
O. Nn ID O Ot R 72404 MOM SRNs ER MOOED BEM.
OCONDENSING BOILER B -1 HORIZONTAL VENT DETAIL
Ma ID 290
I. ▪ 229 642 SR 91 1912 O a ®*IN02
Dn)aeaommTAm.
Ibtmrwl Start Fero Poe NOW
R -F,N.I 2221 }FSB.
l)remwap AaYU+r Nag Palnak
lbr -F, L'I nos l48LR
AAer,.w,Yt.�1m+'T
04w17pa
.1.114 w.ma le
Ev. p1,0 WI/ .1 Fussz 1tm(AXE i.r2arr u 1l)
Men.•ObrTrOH«J9.IE✓9'I oM
pa Wipe
Foaa tamrmv Per f'
.:fAVltne'+.
21'2 2511
,liana G
EIMSS I2 a2 W CMX
i 2,�1aaa.
OBOILER B -1 SEISMIC ATTACHMENT DETAIL
OR 10 Inc
CDBOILER B-2 HORIZONTAL VENT DETAIL
2910 S91
REVIEWED FOR
CODE COMPLIANCE
APPROVED
AUG 9 2 2011
City of Tukwila
BUILDING DIVISION
RECEIVEC
AUG 10 2011
PST CENTER
Of rem Mk ling
Waite
X10 a9 ReaG
PO 29 NW
9AOL w a122
1-l■OF4723
POeua2`
,GAO a POOP Q
F0e1M4 ER PTO
sa- ul-auF
FOSTER HIGH SCHOOL
TUKWILA SD
4242 SOUTH 144TH STREET
TUKWILA, WA 98168
a2ez2mnc
ROEMOS
KO eaE e3AV0S1
5A7/11 Gtr Duet A)er
4/91/11 OW 29 FeeO
IIJSR®I MOM
ENGINEERING
ago® eA 41501 OR=
MEM OA son ROM
O61D200 9696 Oa
2 a00Et 2110190
r� 29.10.12
Sne a o®1
2m 2929
MECHANICAL
DETAILS
MEIF1181A
M5.0
0
0
a
0
0
w9
J
0
my
BOILER ROOM PIPING DEMO DIAGRAM
illr
1
11,5.4
; 142! !! ti;
ill P
11111
1
if. I 1 1
k111 5I PER a ai ;
11 10 I
1 9 � 8 116 ■
1111 d Qy� a
!Ni 1/1 I °ei A : Ohio 0010:11
ipoiloom
• -111:11;11,..4.444•144 dddjddydd4 r •d
a i �7y a •r i 7�3�7i777'ry 9l�3y7gg3Ag 1;2.12 r
• � r r
TUKWILA HIGH SCHOOL HEATING WATER SYSTEM DESIGN INTENT
O '
2
PERMIT CENTER
r m 0w0011 w
PC0311C. N COLS 110
0311 WE Y . 101 COIL
r m comma. i O0713
0x1 SE., f31 WO
CDBOILER ROOM HEATING WATER FLOW DEMO DIAGRAM
RS IC 1W7
r 0031 SEISM
/ -1/4" OCR 1x701
1 -1 /P olour $101
OHOT WATER FLOW DIAGRAM
MX TO sou
OBOILER ROOM HEATING WATER FLOW DIAGRAM
Ilrmsl[
m'IOI00 CCU 110
CW. GE I. im COO
r m Duos, 1m10 If
00K SIX 1 . 701 CCU
r
SHEET NOTES
I. OR IOa ROI RIO 0001 OR 00.
KEY NOTES
m caw sae Dar.
0 to mos so tot
p10mom
Q m C61
/0 to moos
1010 /aas1110.
10 11.0631 mm/ W Arne
mx
BFIA4 337[ 311 3110 OY
►0ran31 so= ID31wummu
ROOM 111.-0SS WORMS 3170 v31
Dim
REVIEWED FOR
CODE COMPLIANCE
APPROVED
AUG 9 2 2011
City of Tukwila
BUILDING DIVISION
ECM /EP
P
AUG 10 2011
PERMITCENTEF
SEATI1
021 RD MSC S
1101114 10 4
I - -
3 33 33 31 I10016
/401/101 61D
Imueleplesses
FOSTER HIGH SCHOOL
TUKWILA SD
4242 SOUTH 144TH STREET
TUKWILA WA 98168
R7RO&
m 00[ 10001101
1/17/11 0061 R1®
(/01/11 m[ RV RIM
WO= 011010
ENGINEERING
=DM 3MCP MOS
ORS 011 CCIEL ROW
0®® @ 116031 00
01O®1 0010
00B 01-1141
Ma PS 000
afra�
MECHANICAL
DIAGRAMS
M6.1
•
MECHAICALPPOIGMA1Ra
O IUTE1GRY
MS 0 0 1111 O0110 NW OM
*100DES05W00
WC 0000
C :_702.-- ,.v`9 -17:± -411111MIIET76 1-SIES _•1r Al.iM_. U N, MALT
NI 03141TUSEIL PRODUCT 00 ELM*
R[ 11000* 006 Da,
040
10 MIL PM Rd
1053 01070 At 000116 M 00000E
■0A 99001
NO MOM
1120 73-2-
r,J,ICI•
OM M0110050
COMM '0M
J010
10x0 - 00004
SUM - - 60000
YDES n -o®c
52120 - 0110
101500 - ESACE
VDU - 00.00001
VT EW0 050/0001'00
{00013118: OA4
79512!0 COMM
ter mat 07040
ar040p5
00 0.15* 0.4100
ammo 0105 200 Ul®1
00020 - OEMS
M0 / AMID
i JIM= 5101 EOM I
{-0-71 •,011 .Iii
59
f W *05051
101
AMMO 000101
NO 00/73*
/0683303030
107M.= w ; t DIE to / Rd
MOM / / 0.-01*
N
R @F7717 M-0F3
4 qt 2_22r00. sow OM 142
321081 ICI
61100100 GPO Mt 0
Ii0 / SWUM / 00910
0058.
902
GM 916 PO AM MO 0090100 AM 01
00000
514 09002
11000 A W906 511 7110 110
10051
0001
1509041, GOMMISSOI
DOMMISO
FBIOPA. moos e%
161
0031 *.
Om*
TAJY71
FEE
102 0'
1465 c - OIATO
LP; UR MOMS IMAM 1104
00 00110 05400E mat as
12223 -10 19201010A105V301
MESS-RI 15010001.030SOMI
IIOL TING
(Nn 59pOp0.}pn NOIB as Al0t
1001 gifa5&•>207
POE0SUIE TESTPROGEO.RE SEISING
0357 00000 000E 600762133 *401310*
ME00/00 1 P
1.2 ISO 4 0300
!m 1110
7810 IM1
PO 6100
Sa 001001 I MO
IMPS 16 01130
ON 0006E
06 06 000011131
0011101
a
maize O 10 E P9
1Z .460204. SOO Rao
0000, 006 t C00116
110 5005006
0563 - MATO
1076 - ®1001
OM SROR0,LED MI PM So ma 5L! MA 603000
100000110 OOHQ 00 MAE 009600000
scam HO 000 7100 00 90 003 PO 0416010
A0 AMMO 0061100 RI SOO
004. 1111116 03.-00 M *00 3- 05-0012
IF1404 AMMO 011.14.
07•
013000 1
00 MO 078120E
*103700
RIO Y0PE Sm 0000000 a MO
0903 PINM MRCS
0000 CIAO 1300
/D OM 0@0 3-1/1 at 2*
07[ 0001
MIM
as 00101/16
- IMAM
(0000000000005010103
*23 000
020 000 OM MU
71•6 101 600 VOL
5012/2000
0402 09043*
PM ME .
09 9900E
11001 023 40 5005
k 00109010 0101
RO
710
MON
00
0
10
0/0
0.
10440 CM 000
A
OPE IMO
A
PLC
10
!OI
201 00
SO 63
1
NOT
1
1St
001 0 mnr wM OW.
050100
12060166 norm 1040E 80.9
0000 V
540050 VOW
100
MOM
• I 1470 MOON 5Mt 060.10 !RAE
100010000
0* MM0 81100
LED 1501 0 130
133 100 PUS SO
M O MT M 1110 E 0 500001
21
1101 N/A 0/11
N/A I/o
90*4ER SCHEDULE
TAO.
H
e- 2100^.100)
IGCATDV
0013631100.
000050011
SERVICE
0101120 WATER
6001700 EATER
UM 011021001 LLOLOACTIATER
YODEL MMAER
013060114
MOW R OA GM
4
IOLAL PRESSURE 0R0PFrNO
MAX MAO MONO MO
NYOROTHEI04
1NO
220
m
5154
231
100
044500M
210
210
100
-
% PROP1113W CLYCOI.
012
(001300
GPM
MEMO WATERw.30000TURE
20
IN
L0A*NO WATER T0.N91M11IE
110
10
NAT3PAL 0151EL9CRIIC
NO
NOOE
1043M10A1 PRFS ORE ROMEO
rIC
.
W10YU60A3 IMMURE ALLOM.
1rwt
0.811
OWL
3000
SOD
011113.T.N04
CODE 1.124 URGENCY
UMW.Y GOO; 0PERAT1004M011NMVR
ME SUE. M METER
210• DESIGN
SO%
092
1
MS 02010/4
-
11
CgISUS110N MR SIZE. 01. 004201 R
0
-
6002.763LOW50TTC6
TES
.
INTEGRAL 00500 comm. MO
YES
NO
NO
TY300F FACTORY NOM= 0 AUI14001D6 CAM
13A4.1
-
6FCTNCAL- &0440 AND PURR CIRCUIT (YOITTWANP)
140553
=CONNECT
BY ELECTRIC..
BY pMC1AX:A1
FEUD 000
400700400000.0370
CONSTANT
11003005,
11p{02000511ECTION 000
OAS C@NEG1ON600
ORANOOF0ECT0002E
LOON NOM x 150430
MNL IN (REAAJ EFROOST ROP1
MIL CLEMNICEPL(FRRONR
0.1
r
1 -331
W
110305/0
0AN0*24
50
NO
MONO
317011NG
0031016
FXOI530
EOM.
0097040
00320P0WERLEVDOS 191491003 EIRE
19I0E01
005704*
SMPRNOW00JR RA3)
1,112
143.11040
01014)120 MOM 703)
4.400
12051043
10
NOTES
1 TM/ 0
120004
1. 16SE0NCE DESIGN INTENT 163 FOR FEATURES OF 90*ER CONTR0. PANEL
3 FURN15N NSUTUL0ATON NIWTl1 BOOR FOR TOFATNE Y OF SORER CO60E0.3112. 1112 NOM WA OWNED LOOSE).
3 F(7REI14010 C967 &NETT CONTROLS
4. MOON VIITH moo mmot4 573104 DISPLAY AODUP
E MOM 011014 OAS REOLLATOR MIMEO LOOM- ME: 401E 0 3PFFSg4PE • 0.41 0-000.
t RORER PLOW 10 HAVE SFPAUTE POWER 001114ECT0N
. (103091 WR11 MA 503040 FIELD 100100IE0 AM M9E0 SY ELECTRICAL
t FORAM WRN SYSTEM WADER RNPERATURE SENSOR AND 140,11230031 10033. FWD ROMEO AO WIRED BY E1ECP0GL.
S PROVIDE rAC1ORY TRAINED AND ,W MJNI*E0 ETART.UP SERVICE
,t 005TH0 DUAL FUEL 3012131 30E0VLED FOR 00004&1014 0100
PUMP SCHEDULE
TAG 3
P-1 i AS (31700 7NG) A-4 (E)CST1NG)
Ab (EXISTING)
AREA
ROSS 0130.011
BOOR NEC. WF
0314.00000
RORER NECK RN 00001 LECH RN
334517005 3R03000120
Df31E.00R NN
ARISSTRONO
MOO. N0FA
SOME
ORM OD
abb
ISMER PAW
5ES UM
45131
BOILER KW
SERIES OD
40310
SYLTEL PLOW
MES 0300
0
010701 P11170
(001300
GPM
EXr. lam
220 0144
EX1.4EW04
17001.4
15 ET
-
MT. OCR 024
442 0341
ENT.MECN R.
440 GPM
FT. TOTAL MD
FT. MN
10 FT
434131
60 FT
•
SOFT
-
MXFLLLD PRE9i106 P300
4200111401
17S POO
94
•
15
10
10
MOTOR MOW
0.811
-
3001000014000
MOTOR EFFIIENCY
4010
013353
40120
47124
4500
0954
110
1=0
710
1700
NO
1.000
NO
303
240
*50019153
OIERGENCI 200101
NO
NO
NO
NO
ID
120
HO
1.50030000.
100MBK
-
-
-
E1EC0RIOlLCOPNECTON
SV ELECT
•
-
00GNTOsS1
NOTES
5250
4.•z
NOTES:
1. 0O5101G TO ROAN S0N000.E3 POP 0 FORIM N ONLY
2 FOR 501 ALTERNATE PROMOS NEW WOOER CRY RA1F0 MOTOR AND 3133 1Y0410 4 CONTROL INTERFACE
PIPE&EOUIPMENTINSUTA7ON SCHEDULE
FAG op nom WS NM MUM
28161 3107 18101 10i0NE wok WOO TOr(O TAO
0015 SPIES 101-00 0563 ID 0010 0.5 13
ROE!
I. 00 OHO 00001 111 1'. 0100 ROD NORM MUM COMM 00004110 MGM MOM SOS
2 O r 0011' MS PIMA MO 00 IRO* ROOM G OSM 10000103E MOM MOM 041
L 0000E 112 4000 00 000 600 00000 alas 90800 Ml a 140 0 AL 10®00 100 R Q MAIM MO *000 10 PROM 110 1665
02 rags 103 a yam at 4 00® IM 01000 0 0II 01K R00 88001 CM 0 80001000 NO 090100 VMS PO 1 BA00®
MVO MIL 08100 MO0 DE 0 00=0757- 0391 409S MIL
MUM MOSS W 01. 406 � uRL
lFS9 roe 3 VI, r 2102 OYRr 231000
01 IS L 71 Ld 0014200
REVIEWED FOR
CODE COMPLIANCE
APPROVED
AUG 9 2 2011
City of Tukwila
BUILDING DIVISION
1U10C
7005 042 RO041
M00E, CA
.40)-014-420
mama
0110 IC 04141 Sr
P01044Oft0106
1040-004
morMallyam
FOSTER HIGH SCHOOL
TUKWILA SD
4242 SOUTH 144TH STREET
TUKWILA, WA 98168
0051002
61•E
0 000
0/05330 06 WO 000
0/02331 ma 010900
rye NENGINEERING
0!0 0 0096 MOS
001010E OM 0000E
0610 B0 IOOER 00
MS MEM 1100M
00111 00-05.67
MIS 401007
ECE1VE® SCHEDULES L
AUG 10 2011 0.14211M
PERMIT CENTER M7.0
•
Pi t
PLAN REVIEW /ROUTING SLIP
ACTIVITY NUMBER: PG11 -122
PROJECT NAME: FOSTER HIGH SCHOOL
SITE ADDRESS: 4242 S 144 ST
X Original Plan Submittal
Response to Correction Letter #
DATE: 08 -10 -11
Response to Incomplete Letter #
Revision # After Permit Issued
DEPARTMENTS:
Building Ivislon
Public Works ❑
Fire Prevention
Structural
Planning Division
❑ Permit Coordinator
DETERMINATION OF COMPLETENESS: (Tues., Thurs.)
Complete
Incomplete
DUE DATE: 08 -11 -11
Not Applicable
Comments:
Permit Center lUse Only '
INCOMPLETE LETTER MAILED: LETTER OF COMPLETENESS MAILED:
Departments determined incomplete: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials:
TUES/THURS ROUTING:
Structural Review Required
REVIEWER'S I ITIALS:
Please Route
❑ No further Review Required
DATE:
APPROVALS OR CORRECTIONS:
DUE DATE: 09-08-11
Approved ❑ Approved with Conditions Not Approved (attach comments) ❑
Notation:
REVIEWER'S INITIALS: DATE:
Permit Center Use Only
CORRECTION LETTER MAILED:
Departments issued corrections: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials:
Documents /routing slip.doc
2 -28 -02
Contractors or Tradespeople Piper Friendly Page
•
General /Specialty Contractor
A business registered as a construction contractor with L &I to perform construction work within the scope of
its specialty. A General or Specialty construction Contractor must maintain a surety bond or assignment of
account and carry general liability insurance.
Business and Licensing Information
Name
Phone
Address
Suite /Apt.
City
State
Zip
County
Business Type
Parent Company
SHINN MECHANICAL INC
4252039800
18802 80 Th Ave South
Kent
WA
98032
King
Corporation
UBI No.
Status
License No.
License Type
Effective Date
Expiration Date
Suspend Date
Specialty 1
Specialty 2
601585839
Active
SHINNMI060QP
Construction Contractor
11/17/1994
11/19/2011
General
Unused
Other Associated Licenses
License
Name
Type
Specialty
1
Specialty
2
Effective
Date
Expiration
Date
Status
JEMCOI'984CF
JEM CONTRACTORS
INC
Construction
Contractor
General
Unused
2/6/2002
2/11/2012
Active
AYATCCL905C3
AYAT
CONSTRUCTION
LLC
Construction
Contractor
General
Unused
2/23/2010
2/23/2012
Out Of
Business
Business Owner Information
Name
Role
Effective Date
Expiration Date
SHINN, MIKE D
01/01/1980
Bond Information
Page 1 of 2
Bond
Bond Company Name
Bond Account Number
Effective Date
Expiration Date
Cancel Date
Impaired Date
Bond Amount
Received Date
6
CAORTFORD CAS INS
52BSBDN1736
11/17/2005
Until Cancelled
$12,000.0011
/03 /2005
5
UNITED STATES FIRE
INS CO
6102406953
11/17/2003
Until Cancelled
11/28/2005
$12,000.0011
/13/2003
Assignment of Savings Information No records found for the previous 6 year period
Insurance Information
Insurance
Company Name
Policy Number
Effective Date
Expiration Date
Cancel Date
Impaired Date
Amount
Received Date
3
Continental
Western Ins Co
CWP2913785
11/21/2010
11/21/2011
$1,000,000.00
11/19/2010
2
PHOENIX INS CO
DTC08070M469PHX09
11/21/2009
11/21/2010
$1,000,000.00
11/17/2009
1
ALASKA
NATIONAL INS
CO
08KLS31184
11/21/2008
11/21/2009
$1,000,000.00
12/01/2008
Summons /Complaint Information
Cause
County
Complaint
Judgment
Status
Payment
Paid By
09 -2- 32209 -1SEA
PARAMOUNT SUPPLY CO
InterPlead: No
KING
Date: 09/02/2009
Amount: $5,934.00
Bond(s): 52BSBDN1736
Date:
Amount: $0.00
Dismissed
Date:
Amount:
https://fortress.wa.gov/lni/bbip/Print.aspx
09/02/2011