HomeMy WebLinkAboutPermit M05-025 - VWR INTERNATIONALVWR INTERNATIONAL
M05.025
Parcel No.: 0223400042
Address: 355 TRECK DR TUKW
Suite No:
Tenant:
Name:
Address:
Owner:
Name:
Address:
Contact Person:
Name:
Value of Mechanical: $19,000.00
Type of Fire Protection: SPRINKLERS
doc: IMC- Permit
City Gi Tukwila
Department of Community Development
6300 Southcenter Boulevard, Suite #100
Tukwila, Washington 98188
Phone: 206 - 431 -3670
Fax: 206 - 431 -3665
Web site: ci.tukwila.wa.us
VWR INTERNATIONAL
355 TRECK DR, TUKWILA WA
355 ASSOCIATES LLC
200 S BROAD ST 6TH FL, PHILADELPHIA PA
DOUG PATTON
Address: 727 S KENYON ST, SEATTLE WA
Contractor:
Name: EVERGREEN REFRIGERATION INC
Address: 727 S KENYON, SEATTLE, WA
Contractor License No: EVERGI *201D7
Furnace: <100K BTU 1
>100K BTU 0
Floor Furnace 0
Suspended /Wall /Floor Mounted Heater 0
Appliance Vent 0
Repair or Addition to Heat/Refrig /Cooling System
Air Handling Unit <10,000 CFM 1
>10,000 CFM 0
Evaporator Cooler 0
Ventilation Fan connected to single duct 0
Ventilation System 0
Hood and Duct 0
Incinerator: Domestic 0
Commercial /Industrial 0
MECHANICAL PERMIT
Permit Number:
Issue Date:
Permit Expires On:
DESCRIPTION OF WORK:
TENANT IMPROVEMENT - HVAC PER PLANS TO INCLUDE INSTALLATION OF 1 SPLIT SYSTEM
UNIT.
EQUIPMENT TYPE AND QUANTITY
* *continued on next page **
M05 -025
Phone:
Phone: 206 763 -1744
Phone: 206 - 763 -1744
Expiration Date:07 /31/2006
Steven M. Mullet, Mayor
Steve Lancaster, Director
M05 -025
03/17/2005
09/13/2005
Fees Collected: $373.30
International Mechanical Code Edition: 2003
Boiler Compressor:
0 -3 HP /100,000 BTU 0
3 -15 HP /500,000 BTU 0
15 -30 HP /1,000,000 BTU.. 0
30 -50 HP /1,750,000 BTU.. 0
50+ HP /1,750,000 BTU 0
Fire Damper 0
Diffuser 0
Thermostat 1
Wood /Gas Stove 0
Water Heater 0
Emergency Generator 0
Other Mechanical Equipment 0
Printed: 03 -17 -2005
Permit Center Authorized Signature: ..)' '•!-x
I hereby certify that I have read and examined this permit and know the same to be true and correct. All provisions of law and
ordinances governing this work will be complied with, whether specified herein or not.
The granting of this permit does not presume to give authority to violate or cancel the provisions of any other state or local laws
regulating construction or the performance of wor I am authori - - n and obtain this mechanical permit. 7
Signature: Date: // / 5
Print Name:
doc: IMC- Permit
City 6 Tukwila
Department of Community Development
6300 Southcenter Boulevard, Suite #100
Tukwila, Washington 98188
Phone: 206 - 431 -3670
Fax: 206 -431 -3665
Web site: ci.tukwila.wa.us
M05 -025
Steven M. Mullet, Mayor
Steve Lancaster, Director
Permit Number: M05 -025
Issue Date: 03/17/2005
Permit Expires On: 09/13/2005
Date: X7 -`1—
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.
Printed: 03 -17 -2005
City of Tukwila
Department of Community Development / 6300 Southcenter BL, Suite 100 / Tukwila, WA 98188 / (206) 431 -3670
PERMIT CONDITIONS
Parcel No.: 0223400042 Permit Number: M05-025 ;
Address: 355 TRECK DR TUKW Status: ISSUED ce
Suite No: Applied Date: 02/18/2005 6 v
Tenant: VWR INTERNATIONAL Issue Date: 03/17/2005 0
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2: No changes shall be made to the approved plans unless approved by the design professional in responsible charge and the 2
Building Official.
3: AU permits, inspection records, and approved plans shall be at the job site and available to the inspectors prior to
start of any construction. These documents shall be maintained and made available until final inspection approval is z
granted.
wo uj
2 v
5: Insulating materials, where exposed as installed in buildings of any type of construction, shall have a flame spread p -
index of not more than 25 and a smoke development index of not more than 450. Where facings are installed in concealed 0 H
spaces in buildings of Type III, IV, or V construction, the flame spread and smoke - developed limitations do not apply w :
to facings, that are installed behind and in substantial contact with the unexposed surface of the ceiling, wall or I
floor finish. v_ O
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6: All construction shall be done in conformance with the approved plans and the requirements of the International v -,
Building Code or International Residential Code, International Mechanical Code, Washington State Energy Code. Z
1: ** *BUILDING DEPARTMENT CONDITIONS * **
4: Readily accessible access to roof mounted equipment is required.
7: Manufacturers installation instructions shall be available on the job site at the time of inspection.
8: All plumbing and gas piping work shall be inspected and approved under a separate permit issued by the Department of
Public Health - Seattle and King County (206/296- 4932).
9: All electrical work shall be inspected and approved under a separate permit issued by the Washington State Department
of Labor and Industries (206/248- 6630).
10: VALIDITY OF PERMIT: The issuance or granting of a permit shall not be construed to be a permit for, or an approval of,
any violation of any of the provisions of the building code or of any other ordinances of the City of Tukwila. Permits
presuming to give authority to violate or cancel the provisions of the code or other ordinances of the City of Tukwila
shall not be valid. The issuance of a permit based on construction documents and other data shall not prevent the
Building Official from requiring the correction of errors in the construction documents and other data.
doc: Conditions
* *continued on next page **
M05 -025 Printed: 03 -17 -2005
g Q
Signature:
Print Name:
City of Tukwila
Department of Community Development / 6300 Southcenter BL, Suite 100 / Tukwila, WA 98188 / (206) 431 -3670
I hereby certify that I have read these conditions and will comply with them as outlined. All provisions
governing this work will be complied with, whether specified herein or not.
The granting of this permit does not presume to give authority to violate or cancel the provision of any
regulating construction or the performance of work.
doc: Conditions M05 -025
Date:
of law and ordinances
other work or local laws
$
Printed: 03 -17 -2005
,ITE LO CATiI
Site Address: 3 / rec % ✓C.
Tenant Name:
Property Owners Name:
Mailing Address:
Mailing Address: j 72 7 ' �a N/' / 4 e S .
E -Mail Address:_ Q 7 ,2 e v�rrP�rt A c, re 4*4
Name:
Pe' "7
Company Name:
Mailing Address:
Contact Person:_
E -Mail Address:4J
CITY OF TUKWIL4
Community Development Department
Public Works Department
Permit Center
6300 Southcenter Blvd., Suite 100
Tukwila, WA 98188
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 **
V I1e L n / r /Hp74 , ,iep
OR'INFORMATIO
e-
7 2 - 7% / / l- ye
g /740
vI7
EQ ed�rfs� Avg c , re kyt
Contractor Registratio umber: Expiration Date:
* *An original or notarized copy of current Washington State Contractor License must be presented at the time of permit issuance **
ARCHITECT,,OF;RECORD A ll planmu
s st be wet stamped by Architect Record
Company Name:
Mailing Address:
Contact Person:
E -Mail Address:
ENGINEER O
.RECORD A11 plans must be'wet stamped by Engineer',of Record
Company Name: ev -e z ���I" rr a o et
Mailing Address: 7 7 .57, N lt
a
7ontact Person: 1 7 4/ � 71 "/''' e
E -Mail Address:_pj,� i ,, BL
tapplicationstpermit application (1.2003)
1/2003
/k 41 ST/
ve:/ reoe..4 AA) C x,41
Page 1
City
s {.
City
Suite Number:
King Co Assessor's Tax No.: aZ23. "Cne.4Z
Floor:
New Tenant: ❑ .... Yes 0 ..No
State
Zip
Day Telephone: 2 06. 76'5', /
City State
Fax Number: 7‘ ?. 7 ?
City
Day Telephone:
Fax Number:
sc; M,4 Wt FS? /09
State Zip
Day Telephone: 2°6- / 74'7
Fax Number: 204' 76' 3 2 3
City
Day Telephone:
Fax Number:
State
Zip
Zip
ti/1 9e /
State Zip
206 7(3. / 7y ,
2c. ' 7e3 2387
'e:
Unit Type:
Qty.
Unit Type:
Qty .
Unit Type:
Qty
Boiler/Compressor: ::
Qty ,:.:.
Furnace<100K BTU
Air Handling Unit
>= 10,000 CFM
Other Mechanical
Equipment
0 -3 HP /100,000 BTU
Fumace >100K BTU
Evaporator Cooler
3 -15 HP /500,000 BTU
Floor Furnace
Ventilation Fan
15 -30 HP /1,000,000 BTU
Suspended/Wall/Floor
Mounted Heater
Ventilation System
30 -50 HP /1,750,000 BTU
Appliance Vent
Hood
50+ HP /1,750,000 BTU
Heat/Refrig/Cooling
System
r
f
Incinerator - Domestic
Air Handling Unit
<= 10,000 CFM
Incinerator — Comm /Ind
C P
6= 431-367
MECHANICAL CONTRACTOR INFORMATION /
Company Name: vv i -t`r A-4 ,, . tr H �1 6 4 -7-0 Mailing Address: 7 2 7 --Co w /4 ,k1-4 a s'!
City Se 7 I' State Z ip
Contact Person: 1 70 t t 9 1 -' H v1 / Day Telephone: 2e' 763 /7 � ' 5' E -Mail Address:_ 40 . H / e2 e ve��-2-'r Aix4 e- , C Fax Number: £' 7 238 9
Contractor Registration Number: E'E/ 2 0 / %7 7 Expiration Date: 7 / 3(
* *An original or notarized copy of current Washington State Contractor License must be presented at the time of permit issuance **
Valuation of Project (contractor's bid price): $ / OCO CP
Scope of Work (please provide detailed information):
/1k ' -, - 7 A if s •. 7, / - Z - I + �/s ('4",K ,"/ 7
5" '
Use: Residential: New .... ❑ Replacement .... ❑
Commercial: New ....❑ Replacement ....❑'"--
Fuel Type: Electric ❑ Gas ....0 Other:
Indicate type of mechanical work being installed and the quantity below:
'PERMITAPPLICATION :NO'
'lineable to all .permits m:this application`;
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 extend the time for action by the applicant for a period not exceeding 180 days upon written request by the applicant as
defined in Section 107.4 of the Uniform Building Code (current edition). No application shall be extended more than once.
1 HEREBY CERTIFY THAT I HAVE READ AND EXAMINED THIS APPLICATION AND KNOW THE SAME TO BE TRUE UNDER
PENALTY OF PERJURY BY THE LAWS OF THE STATE OF WASHINGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT.
BUILDING OWNER 0
Signature:
Print Name:
I Date Application Accepted:
'applicationa\permit application (1.2003)
1/2003
D AGENT:
Mailing Address: 227 Sa i /Gr Z,, i SV
Page 4
Day Telephone:
City
Date:
- /9 -Cs-
2 e,‘' 7C 3. /74,
w /4- 9e /o8
State Zip
Date Application Expires:
Staff Initials:
• . '9aiiL .1A1:4.:1,6:41.4a. Wk14++:41an
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W W
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:
Parcel No.: 0223400042
Address: 355 TRECK DR TUKW
Suite No:
Applicant: VWR INTERNATIONAL
Payment Check 56884
ACCOUNT ITEM LIST:
Description
MECHANICAL - NONRES
PLAN CHECK - NONRES
doc: Receipt
City of Tukwila
6300 Southcenter BL, Suite 100 / Tukwila, WA 98188 / (206) 431 -3670
Payee: EVERGREEN REFRIGERATION, INC.
RECEIPT
TRANSACTION LIST:
Type Method Description Amount
Account Code Current Pmts
000/322.100 304.64
000/345.830 68.66
Permit Number: M05 -025
Status: PENDING
Applied Date: 02/18/2005
Issue Date:
Receipt No.: R05 -00261 Payment Amount: 373.30
Initials: SKS Payment Date: 02/18/2005 04:09 PM
User ID: 1165 Balance: $0.00
373.30
Total: 373.30
0152 02/23 9716 TOTAL 373.30
Printed: 02 -18 -2005
Project:
//
Type of
/---/A//q"
V& ----L—XW-
Address: .r\
3 55 7" Of
Date Calle4: ,
Special Instructions:
Date Wanted:
4 a.m.
Requester:
„LIC1/6
t
Phone No:
(c6') 5 ?/ - 277P
INSPECTION NO.
CITY OF TUKWILA BUILDING DIVISION
6300 Southcenter Blvd., #100, Tukwila, WA 98188
1:214pproved per applicable codes.
COMMENTS:
7L ( 75)--yti ) o
(3)- TO
I Date:_ ./
51.00 REINSPECTION F E REQUIRED. prior to inspection, fee must be
paid at 6300 Southcenter Blvd., Suite 100. Call to sechedule reinspection.
ct
INSPECTION RECORD
Retain a copy with permit
206) 1-3670
El Corrections required prior to approval.
Receipt No.:
'Date:
" '•• ' • . • ••••
Project: A
Type of InspectiorJ;.
Addr s:
Date Called: 4/ /4/ as _
Special nstructions:
Date Wanted: Li � /D5
p
Requester:
�J
Ph ne No:
627
INSPECTION RECORD
Retain a copy with permit
INSPECTION NO.
CITY OF TUKWILA BUILDING DIVISION
6300 Southcenter Blvd., #100, Tukwila, WA 98188
(Inspectors ` ` (Date:
(206)431 -3670
El Approved per applicable codes. Corrections required prior to approval.
COMMENTS:
IrrAl
ac 40(Uvm
`- ( 0 5 "
El $58.00 REINSPECTION FEE REQUIRED. Prior to inspection, fee must be
paid at 6300 Southcenter Blvd., Suite 100. Call to sechedule reinspection.
(Receipt No.:
'Date:
Proj I 1
Type . Inspection:
Fiii,
Address:
3 5 `r (.&I i .
Date ailed: •
-3(a ' (off'
Special Instructions:
Want ��J r
.' I -- 1 (���
.- .m.
'
Requester:
Phone No:
'20 Ce — IP --- 7q‘ — ? /
5
INSPECTION NO.
CITY OF TUKWILA BUILDING DIVISION
6300 Southcenter Blvd., #100, Tukwila, WA 98188
El Approved per applicable codes.
'Inspector
INSPECTION RECORD
Retain a copy with permit
OAJ
(206)431 -3670
Corrections required prior to approval.
COMMENTS:
1.) i*Pc r rtA
vovo, I
PC
'2) AAA
I n A )G1 ✓ k (J, i 1,4 ( h_e ✓.Q I i In P
e) 1 15 ( 'ra i � ore, � -1 v►1
i r 'r't -P✓e, L Gin
1 1,
(Date: 3
ri $58.00 REINSPECTION FEE REQUIRED. Prior to inspection, fee must be
paid at 6300 Southcenter Blvd., Suite 100. Call to sechedule reinspection.
'Receipt No.:
!Date:
Project:
LA) g-- TACt 4 -1 k •
Type of Inspection:
Act ress: -- 1 -- 11,■'k.- D4 ,
Date Called:
3)D g• I o
Special Instructions:
CI LQ-e € 9 A
Date Wanted:
3 , D 6 i os
t
P. m.
•
f.-- 6
cvetz>veR
Requester:
VI (4,./t Pell:A;r7
elopne
0(e
, o:
U2 7q -3(57
3
INSPECTION RECORD
Retain a copy with permit
INSPECTION NO.
CITY OF TUKWILA BUILDING DIVISION
6300 Southcenter Blvd., #100, Tukwila, WA 981 88
l Inspector:< -.
rios -v
(206)431-3670
Approved per applicable codes. Corrections required prior to approval.
COMMENTS:
r ate: 3..)9
El $58.00 REINSPECTION FEE REQUIRED. Prior to inspection, fee must be
" paid at 6300 Southcenter Blvd., Suite 100. Call to sechedule reinspection.
'Receipt No.:
'Date:
PV t:, N�J j _.,--
Type • nspection:
A ress:
5 5 Teecc
Date Called:
� 3la go
Special Instrus:
Citieka 4 /4144) ,
V 1 g--b i ^
1404 lagem a e?u4
Date Wanted: c'm:
Request�}�
1
:
Phone No•
2/Ai? - L 2 7c - 3/5 - 7
INSPECTION RECORD
Retain a copy with permit
INSPECTION NO.
CITY OF TUKWILA BUILDING DIVISION
6300 Southcenter Blvd., #100, Tukwila, WA 98188
(206)431 -3670
A pproved per applicable codes. Corrections required prior to approval.
COMMENTS: 20(e_ (079- 3 y - k
Inspector 1Date: � -a9- _ S
❑ $58.00 REINSPECTION FEE REQUIRED. Prior to inspection, fee must be
paid at 6300 Southcenter Blvd., Suite 100. Call to sechedule reinspection.
(Receipt No.:
IDate:
COMMENTS: 1 . � C t ` , P � VICI i C.r f (' f h-pi
`• ` 1 A nrl , ()T �_1•P -Pr vv\■ V - t- � -r) lOOV'
'v\ rct r -I I ON Y oaw1
3•) r SS `\ s* rt-i 1) r-e ri 0,r loci) k
V►+ 'A- ()lv '` vn4,4vY(' 1 tvtp.S. O)1
9 Ucnr t r ) € , rrfitAt, 6S \
( --P
c4f. It. . - Vol 1-e 4A- ti. re v; .ei /A4 itslA
W\ f In I. to ■ ( s44-» S . no ?51 otn
3 -�. i - ` O 5. .es —\ 5+. r e C o% red
L VrC f r4v \r•P VAvt+ ltn•.4 , t to
Y'OnL4 l,t_)c Ch CA) SP r1In,Q ei LvK
\
In
Y 0 C.) 60 i () -C4.- w)(. I I) i -k [n
- r \ r � 4( a it\ -V.., fl r.1 v ( ( ( i r P(1/4t ;wk.
C'
P V IX)
f'
(
Type of Inspectio • •t
Address
( e 4- Di l
Date Called:
3 il (0C —
Sf5cial Instruct
ons:
Date Wanted: 3 izrz,p).5 C,a,p:t.p.m.
Requester: Q /�,�
dm 4J /l
Phone No: �/�
vo ce — i-�C 7q-&33
.INSPECTION RECORD
Retain a copy with permit
INSPECTION NO.
CITY OF TUKWILA BUILDING DIVISION
6300 Southcenter Blvd., #100, Tukwila, WA 98188
O't
PERMIT NO.
06)43 1 -3670
0 Approved per applicable codes.
M eorrections required prior to approval.
( r 4.1 ,. a 'Date:
-U5
El $58.00 REINSPECTION FEE REQUIRED. Prior to inspection, fee must be
paid at 6300 Southcenter Blvd., Suite 100. Call to sechedule reinspection.
Cooling Equipment Schedule
Equip.
ID
Brand Name'
Model No.
Capacity
Btu /h
Total CFM
OSA CFM
or Econo?
SEER
or EER
IPLV
Location
CU -1
LIEBERT
BUO36E -AGS1
36700
1350
Applicant Name:
10.20
Inc
outside
Applicant Address:
727 South Kenyon Street,
Seattle WA
98108
Applicant Phone:
2o6- 763 -1744
MAR
1 5 2005
- ;:.,! - , - AZ:
Oily 0
-,. ,,, r s i■ v"
r,T\ /TC'T(1N1
Fan Equipment Schedule 1 RcVi W D FOR
Equip.
ID
Equip.
ID
Brand Name'
Model No.'
CFM
SP
i
HP /BHP
CODE CC
Flow Control"
MPLJANLL
Location of Service
AR-3 •
LIEBERT
PHF042A -AL3
1350
Applicant Name:
Evergreen Refrigeration,
Inc
Applicant Address:
727 South Kenyon Street,
Seattle WA
98108
Applicant Phone:
2o6- 763 -1744
MAR
1 5 2005
- ;:.,! - , - AZ:
Oily 0
-,. ,,, r s i■ v"
r,T\ /TC'T(1N1
Heating Equipment Schedule
Equip.
ID
h ,
Brand Name'
Model No.'
Capacity
Btu /h
Total CFM
OSA cfm
or Econo?
Input Btuh
Output Btuh
Efficiency
AR-3 •
LIEBERT
PHF042A -AL3
1350
Applicant Name:
Evergreen Refrigeration,
Inc
Applicant Address:
727 South Kenyon Street,
Seattle WA
98108
Applicant Phone:
2o6- 763 -1744
Project Info
Project Address
vwR International
, ,
Date 2/17/2005
355 TRECK DRIVE
For BuildOry
CITY OF TUKWILA
FEB 1 8 200
2005
PERMIT CENTER
Tukwila, WA
Applicant Name:
Evergreen Refrigeration,
Inc
Applicant Address:
727 South Kenyon Street,
Seattle WA
98108
Applicant Phone:
2o6- 763 -1744
Mechanical Summary
•
•
MECH -SUM
2003 Washington State Nonresidential Energy Code Compliance Forms
Project Description
Briefly describe mechanical
system type and features.
❑ Includes Plans
2003 Washin ton State Nonresidential Ener Code Com•liance Form
Install One (1) Split System Liebert Unit.
FILE COPY
Include documentation requiring compliance with commissioning requirements, Section 1416.
1 2 3 4 i .t.J 1.• 9 :? ;.J.. vZ,.J'
If available. As tested according to Table 14 -1A through 14 -1G. If required. COP, HSPF- Combustion Efficiency, or AFUE, as
applicable. 6 Flow control types: variable air volume(VAV), constant volume (CV), or variable speed (V
38169
Compliance Option
,.
0 Simple System 0 Complex System Q Systems Analysis
(See Decision Flowchart (over) for qualifications. Use separate MECH -SUM for simple & complex systems.)
Equipment Schedules
The following information is required to be incorporated with the mechanical equipment schedules on the
plans. For projects without plans, fill in the required information below.
05-025
1. uoxl., & ": i i.�.e..ti.ia. i,. .;.IS::+rcili.2i.nu t.,cca.i.rk.iwi ::.l Vii' ''
... .. 64 . ; � 'Y.'d4+o t t�us.vicr».(2e" a'k.S �✓i+1+4Y —^��A. , .yr�y .. d. ; oow..�.wY..1wv�, � � ..
System Description
See Section 1421 for full description
of Simple System qualifications.
If Heating /Cooling
or Cooling Only:
a Constant vol?
a Air cooled? a Packaged sys?
a <54,000 Btuh
E Split system?
LI Economizer included?
or 1900 cfm?
If Heating Only:
<5000 cfm?
(l <70% outside air?
System Type
Heating Only
<5000
cfm?
<70% OSA
Econo
Included?
<54,000 Btuh
or 1900 cfm?
Ingle
Package
Unit?
Reference
Yes —• Section 1423
Simple System
Allowed
Split
System?
Yes
>84,000 Btuh
Mechanical Summary (back)
MECH -SUM
Decision Flowchart
Use this flowchart to determine if project qualifies for Simple System Option. If not, either the
Complex System or Systems Analysis Options must be used.
START
Yes
Yes•
2003 Washin ton State Nonresidential Ener Code Com•liance Form
Heating /Cooling
or Cooling Only
Reference
Section 1421 )
Yes
Yes
Yes
0
No
•
•
No-0
Yes -•
Use Complex " Reference
Systems Section 1430 ,
Complex Systems
Refer to MECH -COMP Mechanical Complex Systems for assistance in determining which
Complex Systems requirements are applicable to this project.
Mechanical Permit Plans Checklist MECH -CHK
2003 Washington Slate Nonresidential Energy Code Compliance Forms 38169
Project Address vwR International (Date
2/17/2005
The following information Is necessary to check a mechanical permit application for compliance with the mechanical requirements in the
Washington State Nonresidential Energy Code.
Applicability I
(yes, no, n.a.) J
Code I
Section Component
Information Required I
Location I
on Plans
Building Department
Notes
HVAC REQUIREMENTS (Sections 1401 -1424)
1411
Equipment performance
1411.4
Pkg. elec. htg.& clg.
List heat pumps on schedule
1411.1
Minimum efficiency
Equipment schedule with type, capacity, efficiency
rtl
1411.1
Combustion htg.
Indicate intermittent ignition, flue /draft damper & jacket loss
1412
HVAC controls
1412.1
Temperature zones
Indicate locations on plans
rtl
1412.2
Deadband control
Indicate 5 degree deadband minimum
Mi
1412.3
Humidity control
Indicate humidistat
1412.4
Automatic setback
Indicate thermostat with night setback and 7 diff. day types
Mi
1412.4.1
Dampers
Indicate damper location and auto. controls & max. leakage
Ml
1412.4.2
Optimum Start
Indicate optimum start controls
1412.5
Heat pump control
Indicate microprocessor on thermostat schedule
1412.6
Combustion htg.
Indicate modulating or staged control
1412.7
Balancing
Indicate balancing features on plans
Mi
1422
Thermostat interlock
Indicate thermostat interlock on plans
1423
Economizers
Equipment schedule
1413
Air economizers
1413.1
Air Econo Operation
Indicate 100% capability on schedule
1413.1
Wtr Econo Operation
Indicate 100% capacity at 45 degF db & 40 deg F wb
1413.2
Water Econo Doc
Indicate clg load & water econoe & clg tower performance
1413.3
Integrated operation
Indicate capability for partial cooling
1413.4
Humidification Indicate direct evap or fog atomization w/ air economizer
1414
Ducting systems
1414.1
Duct sealing
Indicate sealing necessary
Ml
1414.2
Duct insulation
Indicate R -value of insulation on duct
Ml
1415.1
Piping insulation
Indicate R -value of insulation on piping
1416
Completion Requirements
1416.1&2
Drawings & Manuals
Indicate requirement for record drawings and operation docs.
Ml
1416.3.2
Air Balancing
Indicate air system balance requirements
Ml
1416.3.3
Hydronic Balancing
Indicate hydronic system balance requirements
1416.4
Commissioning
Indicate requirements for commissioning and prelim. Report
Ml
1424
Separate air sys.
Indicate separate systems on plans
Ml
Mechanical
Summary Form
Completed and attached. Equipment schedule with types,
input/output, efficiency, cfm, hp, economizer
SERVICE WATER HEATING AND HEATED POOLS (Sections 1440 -1454)
1440
Service water htg.
1441
Elec. water heater
Indicate R -10 insulation under tank
1442
Shut -off controls
Indicate automatic shut -off
1443
Pipe Insulation
Indicate R -value of insulation on piping
1452
Heat Pump COP
Indicate minimum COP of 4.0
1452
Heater Efficiency
Indicate pool heater efficiency
1453
Pool heater controls
Indicate switch and 65 degree control
1454
Pool covers
Indicate vapor retardant cover
1454
Pools 90+ degrees Indicate R -12 pool cover
2003 Washington State Nonresidential Energy Code Compliance Form
no is circled for any question, provide explanation:
2003 Washington State Nonresidential Energy Code Compliance Form
Mechanical Permit Plans Checklist
2003 Washington Stale Nonresidential Energy Code Compliance Forms
MECH -CHK
36169
Mechanical - General Requirements
1411.1 General: Equipment shall have a minimum performance at the
specified rating conditions not less than the values shown in Table 14 -1A
through 14 -1G. If a nationally recognized certification program exists for a
product covered in Tables 14-1A through 14-1G, and It Includes provisions
for verification and challenge of equipment efficiency ratings, then the
product shall be listed in the certification program.
Gas -fired and oil -fired forced air furnaces with Input ratings > 225,000
Btu /h (65 kW) shall also have an intermittent Ignition or Interrupted device
(IID), and have either mechanical draft (Including power venting) or a flue
damper. A vent damper Is an acceptable alternative to a flue damper for
furnaces where combustion air is drawn from the conditioned space. All
furnaces with Input ratings 225,000 Btu /h (65 kW), Including electric
furnaces, that are not located within the conditioned space shall have
Jacket losses not exceeding 0.75% of the Input rating.
1411.2 Rating Conditions: Cooling equipment shall be rated at ARI test
conditions and procedures when available. Where no applicable
procedures exist, data shall be furnished by the equipment manufacturer.
1411.3 Combination Space and Service Water Heating: For
combination space and service water heaters with a principal function of
providing space heat, the Combined Annual Efficiency (CAE) may be
calculated by using ASHRAE Standard 124 -1991. Storage water heaters
used in comb nation space heat and water heat applications shall have
either an Energy FActor (EF) or a CAE of not less than the following:
1411.4 Packaged Electric Heating and Cooling Equipment: Packaged
electric equipment providing both heating and cooling with a total cooling
capacity greater than 20,000 Btu /h shall be a heat pump.
Exception: Unstaffed equipment shaelters or cabinets used
solely for personal wireless service facilities.
1412 Controls
1412.1 Temperature Controls: Each system shall be provided with at
least one temperature control device. Each zone shall be controlled by
individual thermostatic controls responding to temperature within the zone.
At a minimum, each floor of a building shall be considered as a separate
zone.
1412.2 Deadband Controls: When used to control both comfort heating
and cooling, zone thermostatic controls shall be capable of a deadband of
at least 5 degrees F within which the supply of heating and cooling energy
to the zone is shut off or reduced to a minimum.
Exceptions:
1. Special occupancy, special usage, or code requirements
where deadband controls are not appropriate.
2. Buildings complying with Section 1141.4, if in the proposed
building energy analysis, heating and cooling thermostat
setpoints are set to the same temperature between 70
degrees F and 75 degrees F inclusive, and assumed to be
constant throughout the year.
3. Thermostats that require manual changeover between
heating and cooling modes.
1412.3 Humidity Controls: If a system is equipped with a means for
adding moisture, a humidistat shall be provided.
1412.4 Setback and Shut -Off: HVAC systems shall be equipped with
automatic controls capable of accomplishing a reduction of energy use
through control setback or equipment shutdown during periods of non -use
or alternate use of the spaces served by the system. The automatic
controls shall have a minimum seven -day clock and be capable of being
set for seven different day types per week.
Exceptions:
1. Systems serving areas which require continuous operation at
the same temperature setpoint.
2. Equipment with full load demands of 2 kW (6,826 Btu /h) or
less may be controlled by readily accessible manual off -hour
controls.
1412.4.1 Dampers: Outside air intakes, exhaust outlets and relief outlets
serving conditioned spaces shall be equipped with dampers which close
automatically when the system is off or upon power failure.
Exceptions:
1. Systems serving areas which require continuous operation.
2. Combustion air Intakes.
3. Gravity (nonmotorized) dampers are acceptable In buildings
less than 3 stories in height.
4. Gravity (nonmotorized) dampers are acceptable in exhaust
and relief outlets in the first story and levels below the first
story of buildings three or more stories In height.
1412.4.2 Optimum Start Controls: Heating and cooling systems with
design supply air capacities exceeding 10,000 cfm shall have optimum
start controls. Optimum start controls shall be designed to automatically
adjust the start time of an HVAC system each day to bring the space to
desired occupied temperature levels Immediately before scheduled
occupancy. The control algorithm shall, as a minimum, be a function of the
difference between space temperature and occupied setpoint and the
amount of time prior to scheduled occupancy.
1412.5 Heal Pump Controls: Unitary air cooled heat pumps shall include
microprocessor controls that minimize supplemental heat usage during
start-up, set-up, and defrost conditions. These controls shall anticipate
need for heat and use compression heating as the first stage of heal.
Controls shall Indicate when supplemental heating Is being used through
visual means (e.g., LED indicators).
1412.6 Combustion Heating Equipment Controls: Combustion heating
equipment with a capacity over 225,000 Btu /h shall have modulating or
staged combustion control.
Exceptions:
1. Boilers.
2. Radiant Heaters.
1412.7 Balancing: Each air supply outlet or air or water terminal device
shall have a means for balancing, including but not limited to, dampers,
temperature and pressure test connections and balancing valves.
1413 Air Economizers
1413.1 Operation: Air economizers shall be of automatically modulating
outside and return air dampers to provide 100 percent of the design supply
air as outside air to reduce or eliminate the need for mechanical cooling.
Water economizers shall be capable of providing the total concurrent
cooling load served by the conneted terminal equipment lacking alrside
economizer, at outside air temperatures of 45 ° F dry- bulbl40 ° F wet -bulb
and below. For this calculation, all factors including solar and internal load
shall be the same as those used for peak load calculations, except for the
outside temperatures.
Exception: Water economizers using air- cooled heat rejection
equipment may use a 35 ° F dry-bulb outside air temperature for
this calculation. This exception is limited to a maximum of 20 tons
per building.
1413.2 Documentation: Water economizer plans submitted for approval
shall Include the following Information:
1. Maximum outside air conditions for which economizer is sized to
provide full cooling.
2. Design cooling load to be provided by economizer at this outside
air condition.
3. Heat rejection and terminal equipment performance data
including model number, flow rate, capacity, entering and leaving
temperature In full economizer cooling mode.
1413.3 Integrated Operation: Air economizers shall be capable of
providing partial cooling even when additional mechanical cooling is
required to meet the remainder of the cooling load.
Exceptions:
1. Individual, direct expansion units that have a rated capacity
less than 65,000 Btu /h and use nonintegrated economizer
controls that preclude simultaneous operation of the
economizer and mechanical cooling.
2. Water - cooled water chillers.
1414 Ducting Systems
1414.1 Sealing: Duct work which is designed to operate at pressures
above 1/2 inch water column static pressure shall be sealed in accordance
with Standard RS -18. Extent of sealing required is as follows: .
1. Static pressure: 1/2 inch to 2 Inches; seal transverse joints.
2. Static pressure: 2 Inches to 3 Inches; seal all transverse joints
and longitudinal seams.
3. Static pressure: above 3 inches; seal all transverse joints,
longitudinal seams and duct wall penetrations.
Duct tape and other pressure sensitive tape shall not be used as the
primary sealant where ducts are designed to operate at static pressures of
1 Inch W.C. or greater.
1414.2 Insulation: Ducts and plenums that are constructed and function
as part of the building envelope, by separating interior space from exterior
space, shall meet all applicable requirements of Chapter 13. These
requirements Include insulation installation, moisture control, air leakage,
and building envelope insulation levels. Unheated equipment rooms with
combustion air louvers must be isolated from the conditioned space by
insulating interior surfaces to a minimum of R -11 and any exterior
envelope surfaces per Chapter 13. Outside air ducts serving Individual
supply air units with less than 2,800 cfm of total supply air capacity shall be
Insulated to a minimum of R -7 and are not considered building envelope.
Other outside air duct runs are considered building envelope until they,
1. connect to the heating or cooling equipment, or
2. are isolated from the exterior with an automatic shut -off damper
complying with Section 1412.4.1.
Once outside air ducts meet the above listed requirements, any runs
within conditioned space shall comply with Table 14 -5 requirements.
Other ducts and plenums shall be thermally Insulated per Table 14 -5.
Exceptions:
1. Within the HVAC equipment.
2. Exhaust air ducts not subject to condensation.
3. Exposed ductwork within a zone that serves that zone.
1415 Piping Systems
1415.1 Insulation: Piping shall be thermally Insulated in accordance with
Table 14-6.
Exception: Piping Installed within unitary HVAC equipment.
Water pipes outside the conditioned space shall be Insulated in
accordance with Washington State Plumbing Code (WAC 51 -26)
1416 Completion Requirements (Refer to NREC Section 1416 and the
Building Commissioning Guidelines, published by the Building
Commissioning Association, for complete text and guidelines for building
completion and commissioning requirements.)
:;,5 .I,:.ixa. M.r.n..•. -. ,... , r..o;ia+:e+S iw - aY.(v iJxixWw«t`�. +:�;w.a.<i.CU:d.L` i?.x'si ^ :+R.ik.R^+5 , : " i. t: A: .v:i�.�r- i ti'.%.Lti..�.:..PJ�:n..
EF
CAE
< 50 gal storage
0.58
0.71
50 to 70 gal storage
0.57
0.71
> 70 gal storage
0.55
0.70
2003 Washington State Nonresidential Energy Code Compliance Form
Mechanical Permit Plans Checklist
2003 Washington Stale Nonresidential Energy Code Compliance Forms
MECH -CHK
36169
Mechanical - General Requirements
1411.1 General: Equipment shall have a minimum performance at the
specified rating conditions not less than the values shown in Table 14 -1A
through 14 -1G. If a nationally recognized certification program exists for a
product covered in Tables 14-1A through 14-1G, and It Includes provisions
for verification and challenge of equipment efficiency ratings, then the
product shall be listed in the certification program.
Gas -fired and oil -fired forced air furnaces with Input ratings > 225,000
Btu /h (65 kW) shall also have an intermittent Ignition or Interrupted device
(IID), and have either mechanical draft (Including power venting) or a flue
damper. A vent damper Is an acceptable alternative to a flue damper for
furnaces where combustion air is drawn from the conditioned space. All
furnaces with Input ratings 225,000 Btu /h (65 kW), Including electric
furnaces, that are not located within the conditioned space shall have
Jacket losses not exceeding 0.75% of the Input rating.
1411.2 Rating Conditions: Cooling equipment shall be rated at ARI test
conditions and procedures when available. Where no applicable
procedures exist, data shall be furnished by the equipment manufacturer.
1411.3 Combination Space and Service Water Heating: For
combination space and service water heaters with a principal function of
providing space heat, the Combined Annual Efficiency (CAE) may be
calculated by using ASHRAE Standard 124 -1991. Storage water heaters
used in comb nation space heat and water heat applications shall have
either an Energy FActor (EF) or a CAE of not less than the following:
1411.4 Packaged Electric Heating and Cooling Equipment: Packaged
electric equipment providing both heating and cooling with a total cooling
capacity greater than 20,000 Btu /h shall be a heat pump.
Exception: Unstaffed equipment shaelters or cabinets used
solely for personal wireless service facilities.
1412 Controls
1412.1 Temperature Controls: Each system shall be provided with at
least one temperature control device. Each zone shall be controlled by
individual thermostatic controls responding to temperature within the zone.
At a minimum, each floor of a building shall be considered as a separate
zone.
1412.2 Deadband Controls: When used to control both comfort heating
and cooling, zone thermostatic controls shall be capable of a deadband of
at least 5 degrees F within which the supply of heating and cooling energy
to the zone is shut off or reduced to a minimum.
Exceptions:
1. Special occupancy, special usage, or code requirements
where deadband controls are not appropriate.
2. Buildings complying with Section 1141.4, if in the proposed
building energy analysis, heating and cooling thermostat
setpoints are set to the same temperature between 70
degrees F and 75 degrees F inclusive, and assumed to be
constant throughout the year.
3. Thermostats that require manual changeover between
heating and cooling modes.
1412.3 Humidity Controls: If a system is equipped with a means for
adding moisture, a humidistat shall be provided.
1412.4 Setback and Shut -Off: HVAC systems shall be equipped with
automatic controls capable of accomplishing a reduction of energy use
through control setback or equipment shutdown during periods of non -use
or alternate use of the spaces served by the system. The automatic
controls shall have a minimum seven -day clock and be capable of being
set for seven different day types per week.
Exceptions:
1. Systems serving areas which require continuous operation at
the same temperature setpoint.
2. Equipment with full load demands of 2 kW (6,826 Btu /h) or
less may be controlled by readily accessible manual off -hour
controls.
1412.4.1 Dampers: Outside air intakes, exhaust outlets and relief outlets
serving conditioned spaces shall be equipped with dampers which close
automatically when the system is off or upon power failure.
Exceptions:
1. Systems serving areas which require continuous operation.
2. Combustion air Intakes.
3. Gravity (nonmotorized) dampers are acceptable In buildings
less than 3 stories in height.
4. Gravity (nonmotorized) dampers are acceptable in exhaust
and relief outlets in the first story and levels below the first
story of buildings three or more stories In height.
1412.4.2 Optimum Start Controls: Heating and cooling systems with
design supply air capacities exceeding 10,000 cfm shall have optimum
start controls. Optimum start controls shall be designed to automatically
adjust the start time of an HVAC system each day to bring the space to
desired occupied temperature levels Immediately before scheduled
occupancy. The control algorithm shall, as a minimum, be a function of the
difference between space temperature and occupied setpoint and the
amount of time prior to scheduled occupancy.
1412.5 Heal Pump Controls: Unitary air cooled heat pumps shall include
microprocessor controls that minimize supplemental heat usage during
start-up, set-up, and defrost conditions. These controls shall anticipate
need for heat and use compression heating as the first stage of heal.
Controls shall Indicate when supplemental heating Is being used through
visual means (e.g., LED indicators).
1412.6 Combustion Heating Equipment Controls: Combustion heating
equipment with a capacity over 225,000 Btu /h shall have modulating or
staged combustion control.
Exceptions:
1. Boilers.
2. Radiant Heaters.
1412.7 Balancing: Each air supply outlet or air or water terminal device
shall have a means for balancing, including but not limited to, dampers,
temperature and pressure test connections and balancing valves.
1413 Air Economizers
1413.1 Operation: Air economizers shall be of automatically modulating
outside and return air dampers to provide 100 percent of the design supply
air as outside air to reduce or eliminate the need for mechanical cooling.
Water economizers shall be capable of providing the total concurrent
cooling load served by the conneted terminal equipment lacking alrside
economizer, at outside air temperatures of 45 ° F dry- bulbl40 ° F wet -bulb
and below. For this calculation, all factors including solar and internal load
shall be the same as those used for peak load calculations, except for the
outside temperatures.
Exception: Water economizers using air- cooled heat rejection
equipment may use a 35 ° F dry-bulb outside air temperature for
this calculation. This exception is limited to a maximum of 20 tons
per building.
1413.2 Documentation: Water economizer plans submitted for approval
shall Include the following Information:
1. Maximum outside air conditions for which economizer is sized to
provide full cooling.
2. Design cooling load to be provided by economizer at this outside
air condition.
3. Heat rejection and terminal equipment performance data
including model number, flow rate, capacity, entering and leaving
temperature In full economizer cooling mode.
1413.3 Integrated Operation: Air economizers shall be capable of
providing partial cooling even when additional mechanical cooling is
required to meet the remainder of the cooling load.
Exceptions:
1. Individual, direct expansion units that have a rated capacity
less than 65,000 Btu /h and use nonintegrated economizer
controls that preclude simultaneous operation of the
economizer and mechanical cooling.
2. Water - cooled water chillers.
1414 Ducting Systems
1414.1 Sealing: Duct work which is designed to operate at pressures
above 1/2 inch water column static pressure shall be sealed in accordance
with Standard RS -18. Extent of sealing required is as follows: .
1. Static pressure: 1/2 inch to 2 Inches; seal transverse joints.
2. Static pressure: 2 Inches to 3 Inches; seal all transverse joints
and longitudinal seams.
3. Static pressure: above 3 inches; seal all transverse joints,
longitudinal seams and duct wall penetrations.
Duct tape and other pressure sensitive tape shall not be used as the
primary sealant where ducts are designed to operate at static pressures of
1 Inch W.C. or greater.
1414.2 Insulation: Ducts and plenums that are constructed and function
as part of the building envelope, by separating interior space from exterior
space, shall meet all applicable requirements of Chapter 13. These
requirements Include insulation installation, moisture control, air leakage,
and building envelope insulation levels. Unheated equipment rooms with
combustion air louvers must be isolated from the conditioned space by
insulating interior surfaces to a minimum of R -11 and any exterior
envelope surfaces per Chapter 13. Outside air ducts serving Individual
supply air units with less than 2,800 cfm of total supply air capacity shall be
Insulated to a minimum of R -7 and are not considered building envelope.
Other outside air duct runs are considered building envelope until they,
1. connect to the heating or cooling equipment, or
2. are isolated from the exterior with an automatic shut -off damper
complying with Section 1412.4.1.
Once outside air ducts meet the above listed requirements, any runs
within conditioned space shall comply with Table 14 -5 requirements.
Other ducts and plenums shall be thermally Insulated per Table 14 -5.
Exceptions:
1. Within the HVAC equipment.
2. Exhaust air ducts not subject to condensation.
3. Exposed ductwork within a zone that serves that zone.
1415 Piping Systems
1415.1 Insulation: Piping shall be thermally Insulated in accordance with
Table 14-6.
Exception: Piping Installed within unitary HVAC equipment.
Water pipes outside the conditioned space shall be Insulated in
accordance with Washington State Plumbing Code (WAC 51 -26)
1416 Completion Requirements (Refer to NREC Section 1416 and the
Building Commissioning Guidelines, published by the Building
Commissioning Association, for complete text and guidelines for building
completion and commissioning requirements.)
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Challenger`M3000
REVIEVVED FOR
CODE COMPLIANCE
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MAR 1 5 2005
City Of Tukwila
B ).TNG DIVISION
CITY RECEIVED
Lq
MAR 1 12005
PERMIT CENTER
FILE COP
CORRECTION
LTR# ..
Heat Removi31
With Standard Features & Flexible
Options To Fit Many Applications,
Including Laboratories and Medical
Imaging Suites, Industrial Process
Control Rooms, Telecommunications
Rooms and Computer Rooms
EMERSON.
Network Po +^.,pe
M05°4t
WHEN IT COMES
TO PRECISION
AIR CONDITIONING,
LIEBERT DOESN'T
ACCEPT "ALMOST"
Sensitive computer-based electronics are no longer restricted
to computer room "glass house" environments. Today's
computers manage complex telecommunications networks,
optimize industrial systems, process sophisticated medical
and laboratory information, and control LANs and WANs.
Although sensitive equipment can leave the computer
room, it can't leave the environmental protection behind.
Electronics are susceptible to heat, humidity, and airborne
dust and contaminants. These systems require precision
air conditioning to prevent downtime due to:
• Overtemperature conditions — cause
equipment shutdown or mechanical failure.
• Temperature fluctuations— can cause
equipment to exhibit random errors and
premature mechanical failure.
• Low humidity— static discharge can alter
data and may destroy electronic components.
• High humidity— can accelerate the
deterioration of magnetic media, cause paper
to swell and jam in printers, and leads to
deterioration from condensation.
The choice is simple: provide precision air conditioning
or risk significant levels of downtime.
But configuration of air conditioning is not so simple.
"I need a cooling source I can control
that is totally independent of the
building HVAC system."
"My equipment will be running
continuously, so the air conditioner
needs to be energy efficient."
•
"That room is jammed to the rafters;
I need a cooling system that takes
very little space."
"I want everything in one cabinet
from one supplier."
"There are a dozen sites here,
all unique. I want to simplify my
selection process without
compromising my site needs."
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The Challenger 3000 is a self - contained system.
The status and control panel is on the front, and
all control functions are menu - driven. You have
complete control of your environment at all times.
Designed to run 24 hours a day, 365 days a year.
The inherently efficient scroll compressor has an
EER of 11.3. Microprocessor-based controls
intelligently determine operational requirements
and minimize wasteful operating patterns such
as short cycling. Optional GLYCOOL free - cooling
system permits compressorless operation
in cold climates.
Footprint is a mere 7.3 square feet, with
front access to all interior components for
maintenance and service. There's no need to keep
the back or sides clear, so the Challenger 3000
can fit into a corner or squeeze between existing
installed equipment.
Challenger 3000 includes all environmental
functions — cooling, reheat, dehumidification,
humidification, and filtration —and an intelligent
control system to make sure every function
works in harmony with the other. Installation
is fast, and maintenance is easy. All systems
ore factory tested.
Challenger 3000 is the most versatile system
available. It can be placed inside the room, or
remotely. Conditioned air can move up into
ducts or down into a raised floor plenum.
Self - contained or split systems. Air, water, glycol,
GLYCOOL, and chilled water configurations.
REGARDLESS OF YOUR APPLICATION
WITH CHALLENGER 3000,
YOU SOLVE THE PROBLEM RIGHT.
Years of experience in the design and manufacture of precision environmental control systems and staying abreast of new
technological developments and requirements has helped us produce the Liebert Challenger 3000,
We know that all critical electronic systems demand a high quality environment...but we also know that not all applications
are created equal. That's why Challenger 3000 is configurable to meet the needs of a wide variety of site requirements.
• Large Load Variations
• High Air Filtration Requirements
• Minimal Floorspace
Labs and Medical suites such as MRI and CATscan sites
need to handle cooling loads precisely and quietly.
The Challenger 3000 offers such precision features as
"Intelligent ", microprocessor based control systems,
SCR controlled reheats for infinite levels of response,
an A -Frame coil that reduces air turbulence and a quiet,
dependable scroll compressor. All in a compact package
that fits easily into anysetting.
App ca"C 5sls .'. e.CI '
• Unattended Sites
• Minimal Floorspace
• Continuous Operation
In Telecommunications sites, space is at a premium.
And you need a system dependable to operate year round
in unattended sites. The Challenger 3000 features a
reliable scroll compressor, remote communications
capability, and a microprocessor that controls the system
without supervision. And it provides all this protection
while consuming only 7.3 square feet.
• Potentially Corrosive Environments
• High Static Pressure Air Discharge Requirements
• High Air Filtration Requirements
On the factory floor, you need a cooling system that's
dependable and tough. Tough enough to withstand the
corrosive environments, and tough enough to supply
continuous airflow in ducted applications. The
Challenger answers all this with a MIG welded steel
frame surrounded by insulated heavy gauge steel panels.
• 24 Hour Per Day/365 Days Per Year Operation
• Underfloor Air Discharge
• High Sensible Heat Ratio
• 1800 -3000 C.F.M. Air Discharge
• High Energy Efficiency Requirements
On a square foot basis, computer rooms generate up
to five times the heat of normal office space. And they
require higher than normal air handling requirements
to reduce hot spots. The Challenger 3000 is designed to
handle this load efficiently with a high sensible heat ratio
and an air delivery system capable of 1800 -3000 C.F.M.
Because most computer rooms use a raised floor for air
circulation and cable management, the Challenger 3000
can be specified with underfloor air discharge. This
reduces the turbulence created by competing warm
and cold air streams.
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MORE BENEFITS AND HIGHER QUALITY...
TRADEMARKS OF A LIEBERT SYSTEM
All interior components are front
accessible to simplify maintenance,
and reduce the floorspace that must
be kept open.
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A MIG welded steel frame provides
a solid platform for the internal
components. Units incorporate a
vibration - isolated fan deck which
reduces noise and vibration
transmission to any connected
ductwork. The heavy gauge
panels heavy duty gaskets option
provides upgraded protection,
popular in industrial and/or high
static applications.
Corrosion Resistant
The frame is painted using an
autodeposition method. The entire
frame is dipped into liquid ensuring a
complete and even coating. The result
is a frame that is highly resistant to
chipping and corrosion. Exterior
panels are powder coated and baked,
a solvent -free process that is not only
environmentally safe, but produces
an attractive, durable finish.
The Infrared Humidifier has been
a feature on Liebert environmental
control systems for over 25 years.
Its rapid response and cleanliness
has made it an industry standard in
applications that demand precise,
particle -free humidity control.
An autoflush system reduces the
buildup of mineral solids and reduces
maintenance time. If your application
calls for a Steam - Generating
Humidifier, Liebert can respond.
The disposable canister makes
maintenance quick and easy.
An A -Frame Evaporator Coil
exposes more coil surface to the air
that passes through it. This not only
provides a more rapid and precise
response to changing room
conditions, but it reduces the
horsepower requirements of the
fan motor, saving energy.
The 304/304 Stainless Steel,
Finned Tube Reheat, like the
evaporator coil is designed to
maximize surface area. This allows
lower sheath temperatures, reducing
the likelihood of ionization that could
trip fire detection equipment, and
more precisely controlling room
temperature during dehumidification.
The reheat coils are constructed of
stainless steel for corrosion resistance
and long life. An optional
SCR - Controlled Reheat is available
that provides infinite response levels
to changing room temperatures.
A rugged and quiet Scroll
Compressor is at the heart of the
refrigeration system. It operates at
one of the highest EER's in the
industry, 11.3.
• Air cooled systems with outdoor
condenser can operate
between -30° and +120 °F
( -34° and 49 °C).
• Water and glycol cooled systems
feature a coaxial condenser and
regulating valves that can be
adjusted to meet the capabilities
of the site.
One Manufacturer
Liebert is the only manufacturer in
the computer support industry that
builds its own' condensers and
drycoolers. They feature aluminum
cabinets and copper -tube,
aluminum -fin coils, and are built to
precisely match the heat rejection
requirements of the Challenger 3000.
`."t1>t c k_ -E
Standard products are NRTL -C
listed certified. NRTL -C meets both
U.S. and Canadian government safety
standards, providing fast, hassle -free
inspection and building code approval.
r us C4- r, us
The GIYCOOI.
system 1s a patented
Liebert process that
allows colder outdoor
temperatures to
reduce or eliminate
compressor operation.
This not only reduces
operating costs, it
increases reliability.
When outdoor
temperatures are
above room
temperature, the
GLYCOOL Challenger
3000 functions as a
normally - cooled
system. But when
outdoor temperatures
fall below room
temperatures, the
glycol that circulates
between the
condenser and
drycooler becomes
cold enough to
provide some or all
of the room's cooling
needs. The cold
glycol is redirected
to a supplemental
cooling coil by means
of a microprocessor
controlled valve.
During outdoor
temperatures below
45 °F (7.2 °C), the
circulating glycol can
provide the same
cooling capacity as
the mechanical
refrigeration system.
Infrared
Humidifier
For Predse
;'Ii „f lumtdlty,
7+'.' r7@' fi1srsEtir« mt � W. - '• t �� ,. Y w; i�? ��` c ` ::�.;'�`w:r`�".`.5 N.::%�
Scroll
Compressor
All Liebert products available in the marketplace are the results of exhaustive testing. Our state -of- the -art testing laboratory is the most complete in the
industry. Products are tested under both indoor and strenuous outdoor conditions to insure year round reliability. All electronic components are subjected
to rigorous life -cycle testing far in excess of normal operating stresses. In short, you can be sure that a Liebert product not only will help you solve your
unique environmental control problems...11 will help you solve them right.
COMMUNICATING WITH YOUR PRECISION
ENVIRONMENTAL SYSTEM
Whether you use Rs local or remote monitoring and control capabilities, the Challenger 3000 is designed to provide the widest
range of monitoring options.
z,tst's > >. lu ?31'bi >e?t'2i1!� '. id • « ts1Y at
Aside from streamlining your operation for peak performance, microprocessor -based controls help the Challenger
3000 achieve precise temperature and humidity for your sensitive electronics. Two levels of microprocessor control
systems are available, providing precise control and monitoring of the critical space. The Advanced Microprocess
or is standard, while the Advanced Microprocessor with Graphics is optional. These controls provide unit control,
monitoring, diagnostics, alarms and event logging.
Advanced Microprocessor Control
This control system automatically selects the most precise and
efficient action based on the environmental trends of your site.
The Advanced Microprocessor Control uses an LCD display and a
five -key pad to program setpoints and alarms. The menu -drive
system monitors a wealth of data — digital and analog — to keep
you constantly informed of system operation. Features include:
• Backlit display panel that shows room conditions and
operational status in normal mode.
• Event logging that shows alarm history and run time log.
• Choice of four custom alarms with inputs allowing external
20mA analog signals for water and similar external alarms.
• Proportional control system.
• Programmable temperature and humidity setpoints
and alarm conditions.
• Auto restart.
• Local alarm. .
• Compatibility with Liebert remote monitoring and
control devices.
In the alarm mode, the control panel can display
any of up to 21 alarms,
Advanced Microprocessor Control With Graphics
Liebert's Advanced Microprocessor Control with Graphics
offers the same features and control schemes as the Advanced
system. However, this model adds a 240x128 pixel backlit dot
matrix display that provides data at- a- glance screens for quick
review. Additional features include expanded alarm capabilities
and in -depth system operating information. The system offers
graphic representations of:
• Temperature, humidity and analog inputs.
• Component operating status by hour.
• System operating status.
• Water detection floorplan.
.t+vtTY.IIM .Vr. ' nuxTD
The standard operations screen shows temperature
and humidity In large, easy-to-read type.
In addition to local monitoring through
the Challenger 3000's onboard controls,
the unit can also be interfaced with
Liebert's remote monitoring and
control systems, as well as with
building management systems,
These capabilities include:
Cer Aran:F...2 tl Ww:r3",i :iiY ii
Sr seer sS
Site Scan — Site Scan is a monitoring
solution for critical environments that
utilizes a facility -view approach. The
system enables communications from
Liebert environmental and power
units — as well as many other pieces
of analog or digital equipment — to
a front end software package which
provides monitoring, control and
alarm management. SiteScan gives
you decision - making power to
proactively manage the equipment
that is critical to your business.
OpenCommsTM Nform — Liebert's
OpenCommsTM Nform is a network
communications system that will
enable you to monitor any piece of
precision cooling or power protection
equipment that can support a network
interface, such as the SNMP/Web card
or OpenComms NIC. This software
solution combines full -scale monitor-
ing with cost - effective deployment
through the use of existing network
wiring. It is both scalable and adaptable
so it can grow as your systems expand
and needs change. OpenComms
Nform's graphical user interface enables
you to view device status conditions
through either a native SNMP interface
or an HTML web browser interface.
Monitoring S'tisu:2.0 If?t.Fl ace
SiteLink — The microprocessor -based
module provides two -way communi-
cation between an existing building
management system and up to 12
Liebert units via MODBUS or BACnet.
OpenComms NIC — The OpenComms
Network Interface Card (NIC) provides
Ethernet connectivity for Liebert
equipment. Operating status and
alarms are communicated via the
network to external systems utilizing
industry- standard open protocols
including SNMP and HTTP.
OpenComms OC — The
OpenComms OC DO Interface Card
provides 16 discrete outputs,
corresponding to status and major
alarm conditions. These form -C
contact - closures provide a straight-
forward means to tie units to a
building management system, I/O or
alarm panels and autodialer devices.
;f1 G. :,nik'w)ring :x.39:
Dry Contact Monitors — RCM4,
RCMBCE LEDs display customized
alarm indication for any dry contact
input, including alarms for Liebert
environmental, power and UPS
systems. RCM4 monitors and displays
four dry contact points. The RCM8CE
monitors and displays eight dry
contacts — it can also communicate
with a Liebert SiteScan system and
has modem dial -up capabilities.
Single Unit Remote Monitoring —
MR1 Operating parameters for a
single environmental unit are selected
with push- buttons and displayed on
an LCD screen. This user - friendly
system provides remote monitoring
and alarm warning for complete
status updates.
SEE FOR YOURSELF HOW THE CHALLENGER
3000 CAN BE CONFIGURED TO MATCH
YOUR EXACT COOLING NEEDS
The Challenger 3000 is the most versatile environmental control system on the market. It can be configured to match
the needs of a wide variety of site requirements.
D rs?ct Expansion Or
Chilled %Water I`vloc els?
• Direct Expansion includes
Air cooled, Water cooled,
Glycol cooled, and GLYCOOL.
• Chilled Water Systems require
connection to a chilled water source.
Self-Contained
c:r Split System?
Self- Contained Systems package all
refrigeration components within the
cabinet to minimize installation time.
.• Air Cooled models require field
connection to a remote condenser.
• Water Cooled models require field
connection to a remote water source.
• Glycol Cooled / GLYCOOL models
require field connection to a remote
drycooler and circulating pump.
• AN Chilled Water systems
are self - contained.
Split systems split the refrigeration
components between the room
unit and a condensing unit.
This locates the compressor and
condenser at a remote location,
and reduces noise levels within
the room unit.
• Air, Water, and Glycol Cooled
models connect to the room unit
with pre - charged refrigerant line
sets (up to 45 ft. /14 meters), or
traditional piping techniques for
longer distances.
Water
Cooled
Air Cooled
Outdoor
Prop Fan
Air Cooled
Indoor
Centrifugal
Glycol
Cooled
Cooling
Tower
Standard Air Volume
'Net Capacity Data
Indoor Self - Contained Systems
3Ton 5Ton
Split Systems Centrifugal Condensing Unit
3Ton 5Ton
Split Systems Prop Fan Outdoor Condensing Unit
3Ton 5Ton
Air Cooled
BF /BU042A
BF /BU067A
BF /BUO36E
BF /BU060E
BF /BUO36E
BF /BU060E
Total BTU /H (kW)
37,600 (11.0)
58,900 (17.3)
36,400 (10.7)
57,200 (16.8)
36,700 (10,8)
55,900 (16.4)
Sensible BTU(H (kW)
32,700 (9.6)
51,500 (15.1)
32,200 (9.4)
50,700 (14.9)
32,400 (9.5)
50,200 (14.7)
Water Cooled
BF /BU046WG
BF /BU071WG
BF /BUO36E
BF /BU060E
Total BTU /H (kW)
38,300 (11.2)
62,500 (18.3)
33,900 (9.9)
54,700 (16.0)
Sensible BTU /I I (kW)
33,100 (9.7)
53,000 (15.5)
31,200 (9.1)
49,700 (14.6)
Glycol Cooled
BF /B1J046WG
BFIBUO71WG
BF /BUO36E
BF /BU060E
Total BTU /H (kW)
34,300 (10.0)
56,000 (16.4)
33,900 (9.9)
54,700 (16.0)
Sensible BTU/H I <W)
31,400 (9.2)
53,000 (15.5)
31,200 (9.1)
49,700 (14.6)
GLYCOOLTM
BF /BU061 G
Total BTU/11 (kW)
154,500 (45.3)
Sensible BTU /11(kW)
114,500 (33.5)
Chilled Water
BF /BU068C
BF /BU102C
Total BTU/H (kW)
40,200 (11.8)
58,200 (17.1)
Sensible BTU /II (kW)
38,900 (11.4)
54,600 (16.0)
Standard Air Volume
'NetCa.acit Data
Indoor Self•Contained Systems
3Ton 5Ton
Spilt Systems Centrifugal Condensing Unit
3Ton 5Ton
Split Systems Prop Fan Outdoor Condensing Unit
3Ton 5Ton
Air Cooled
BF /BU040A
OF /BU065A
BF /BUO35E
BF /BU059E
BF /BUO35E
BF /BU059E
Total ITU /I-I (kW)
38,200 (11.2)
56,900 (16.7)
35,200 (10.3)
55,700 (16.3)
35,900 (10.5)
53,900 (15.8)
Sensible BTU II kW
32,600 (9.6)
48,800 (14.3)
31 400 (9.2)
48,300 (14.2)
31,700 (9.3)
47,500 (13.9)
Water Cooled
13F /BU045WG
BF /BU070WG
BF /BUO35E
BF /BU059E
Total BTU /I I (kW) _
39,300 (11.5)
60,700 (17.8)
37,000 (10.8)
58,700 (17.2)
Sensible ITt) /11(kW )
33,]00 an
50,400 018)
3Z,100 (919
49,600 (um
Glycol Cooled
BF /BU045WG
BF /BU070WG
OF /BUO35E
BF /BU059E
Total BTU/II (kW)
34,500 (10.1)
54,100 (15.9)
32,900 (9,6)
52,800 (15.5)
Sensible BTU /I I (kW)
31,100 (9.1)
47,600 (13,9)
30,400 (8.9)
47.100 (13.8)
GLYCOOLTM
BF /OU058G
Total ITU /I1(kW)
51,300 (15,0)
Sensible OTU /FUkW)
45,600 (13.4)
Chilled Water
BF /000720
BF 1OU101C
Total BTU /H (kW)
35,300 (10.3)
55,300 (16.2)
Sensible BTU /I I (kW)
33,400 (9.8)
50,700 (14.9)
(2W nn)
JIM'
(126mn)
32%'
(12emm)
k. +'
• Upflow Air Discharge to vent directly into the
conditioned space.
Upflow Air Discharge to be connected to
distribution ductwork.
• Downflow Air Discharge to supply an
underfloor distribution system.
i%•
Shaded Area Indicates
a Recommended
Clearance
of34 "(864 mm)
Be Provided For
Component Access.
Right Side Access
Required for
GLYCOOL units
32:5'
(IZb=n)
Chail.n_yrr31190 50 Hz Data 73 rDB -60 Ft4li(22 C Dii -1
Chal(enp FDF -60 MIS (22 CDt1.1a.5 CVV3 0' %•fi t
.5 CVa'Bl D -:.Ri1
'The net capacity data has fan motor heat factored in for all ratings and the entering air condition of 72'F (22'C), 50% RH is the standard rating condition of ASHRAE 127-1998.
Shaded Area Indicates
a Recommended
Clearance
0134" (864 mm)
Be Provided For
Component Access.
Right Side Access
Required for
GLYCOOL units
l2N'
(1
1 N"
Challenger - 3000
For over 35 years, Liebert has been providing tailored solutions for protecting the operation of critical
electronic systems in a variety of industries. From customer premise equipment to global networks, we've
used our expertise to tailor the right products, monitoring systems and global service capabilities into a
variety of specific solutions,
Liebert's years of experience and knowledge of leading edge technologies enables us to truly
understand your needs — both in terms of overall reliability and specific areas of equipment
protection. Whether it's a new or existing facility, centrally located or remote, we listen to you
and your preferences to help us develop solutions that are right for your facilities.
We recognize that each situation has its own unique requirements and are better prepared
than any other manufacturer to deliver the right level of reliability at the right price. And we do
it through the right combination of knowledge, experience, product selection and service capability.
Sc d31T:'E:'.er ` fa'. =iiirhy Ti Help Before And Afte 1 'he ale
Specifying and maintaining a high availability facility support system requires someone who
is knowledgeable in all phases of environmental and power protection. And knowing where to
turn for ongoing maintenance or service is just as important.
One of the many things that differentiate Liebert from others in our business is local expertise.
We have the most extensive sales and service network in the world. Liebert's extensive network
of technical sales associates, backed by the industry's largest service organization, enables us to
respond quickly to customer needs.
Liebere
KEEPING BUSINESS IN BUSINESS °
LIEBERT CORPORATION
1050 DEARBORN DRIVE
P.O. Box 29186
COLUMBUS, OHio 43229
800.877.9222 PHONE (U.S. &
CANADA ONLY)
614.888.0246 PHONE (OUTSIDE U.5.)
614.841.6022 FAX
VIA LEONARDO DA VINCI 8
ZONA INDUSTRIALE TOGNANA
35028 PIDVE Di SACCO (PD)
ITALY
39 049 9719 111 PHONE
39 049 5841 257 FAX
231F ALLIED KAIIMA BLDG.
138 GLOUCESTER ROAD
WANCHAI
HONG KONG
852 2 572 2201 PHONE
8522 831 0114 FAX
LIEBERT WEB SITE
http://www.liebert.com
24 x 7 TECH SUPPORT
800 222 5877 PHONE
614 841 6755 (OUTSIDE U.S.)
While every precaution has been Liken to ensure accuracy and
completeness in this literature, Liebert Corporation assumes no
responsibility. and disclahns all liability for damages resulting
from use of this information or for any errors or omissions.
O 2002 Lleberl Corporation. All rights reserved throughout
the world. Specifications subject to change without notice.
All names referred to are trademarks or registered trademarks
of their respective owners.
0 Liebert and the Lie logo are registered trademarks
of the Liebcrt Corporation.
0 Keeping Business In Business Is a registered trademark
of the Lleberl Corporation.
The Emerson logo Is a trademark and service mark
of Emerson Electric Co.
SL.11900 (R6102)
Printed In USA
EMERSON.
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NOTICE: IF THE DOCUMENT IN THIS FRAME IS LESS CLEAR THAN
THIS NOTICE IT IS DUE TO THE QUALITY OF THE DOCUMENT.
Capacity
Indoor Unit
Remote Equipment
System Type
Air Cooled
Condenser
Drycooler /Pump
3 Ton
60 Hz
(50 Hz)
B *042A
(B *040A)
CS @083
MC_40A
(MC_39A)
Air Cooled
60 Hz
(50 Hz)
B *046WG
(B *045WG)
B *060E
(B *059E)
DSF069
3/4 HP Pump
1 -1/2 HP Pump 50 Hz
Glycol - Cooled or Self- Contained - Water Cooled
60 Hz
(50 Hz)
B *068C
(B 072C)
Self- Contained - Chilled Water
5 Ton
60 Hz
(50 Hz)
B *067A
(B *065A)
CS @083
Air Cooled
60 Hz
(50 Hz)
B *071WG
(B *070WG)
DSF109
3/4 HP Pump 60 Hz
1 -1/2 HP Pump 50 Hz
Glycol - Cooled or Self- Contained - Water Cooled
60 Hz
(50 Hz)
B #061G
(B #058G)
DSO109
1 -1/2 HP Pump
GLYCOOLI"
60 Hz
(50 Hz)
B *102C
(B *101C)
Self- Contained - Chilled Water
Capacity
Evaporator
Condensing Units
Air Cooled Prop Fan
Condensing Unit
Air Cooled Centrifugal
Condensing Unit
Water /Glycol
Condensing Unit
3 Tons
60 Hz
(50 Hz)
B *036E
(B *035E)
PF * *_42A
(PF * *_41A)
MC_40A
(MC_39A)
MC 44W
(MC__43W)
5 Tons
60 Hz
(50 Hz)
B *060E
(B *059E)
PF * *_67A
(PF * *_66A)
MC 65A
(MC_64A)
MC_69W
(MC_68W)
•
Table i Product Model Information
B F 042 A — A A E I
Challenger E = Downflow with Nominal A - =Air Cooled A = 460/60/3 A = Advanced 0 = No Reheat 0 = No
3000 Econ -O -Coil capacity In Microprocessor Humidifier
thousand
BTUH
F = Downflow
U = Upflow
F = Downflow
U = Upflow
F = Downflow
K = Upflow with
Econ -O -Coll
U = Upflow
Table ii Split system configurations
WG = Water
Cooled /Glycol
Cooled
C = Prop Fan Condensing Unit
H = Prop Fan Condensing Unit with Hot Gas Bypass Option
Table iii Self- contained system configurations
# @
E = Downflow F = Fan Speed Control
K = Upflow L = Lee Temp
C -= Chilled Water B = 575/60/3 G = Advanced E = Electric I = Infrared
Microprocessor Reheat Humidifier
w /Graphics
E- = Evaporator C = 208/60/3 H = Hot Water S = Steam
Reheat Generating
Humidifier
G -= GLYCOOL D = 230/60/3 G = Hot Gas
Reheat
2 = 380/60/3
J = 200/50/3
H = 230/50/3
M = 380/415/50/3
S = SCR Reheat
1.0 INTRODUCTION
1.1 System Descriptions
Challenger 3000 environmental control systems are available in three main system configurations:
• self contained system with a scroll compressor in the room unit
• self contained chilled water system
• split system with an evaporator section and a remote condensing unit
All three types are available in upflow or downflow configurations. The standard upflow configuration
is front return. All models require three -phase power. Units are available in 208, 230, 460, or 575 V,
60 IIz; and 200, 230 or 380/415 V, 50 IIz.
The following features are included as standard in all room units regardless of the type of system:
A -frame coil (V -frame on upflows), infrared humidifier, finned tubular stainless steel electric reheat,
2" filter, individual high voltage fused protection, and fan assembly.
Each configuration can operate with either Advanced Microprocessor Controls (A), or Advanced
Microprocessor Controls with Graphics (G). A brief description of each, including operational differ-
ences, is listed below. Check model numbers to see what is supplied with your unit.
1.1.1 Self Contained Systems
Air Cooled Models
Complete refrigeration system including hot gas bypass and crankcase heater with standard con -
denser and fan speed control for 95 °F (35 °C) ambient at sea level.
Water Cooled Models
Compete refrigeration system including hot gas bypass with water /glycol cooled condenser and two -
way water regulating valve with bypass.
Glycol Cooled Models
The water cooled model as described above plus pump package and 95 °F (35 °C) design ambient dry -
cooler.
GLYCOOL Models (5 Ton Only)
Complete refrigeration system including hot gas bypass with glycol condenser and three -way water reg-
ulating valve plus an integrally piped Econ -O -Coil with three -way modulating control valve.
1.1.2 Chilled Water Models
Chilled Water models include chilled water piping, three -way modulating valve, and actuator assem-
bly.
1.1.3 Split Systems
Each Air Cooled split system consists of an evaporator section and one of the following condensing
units.
Prop Fan
Includes scroll compressor, condenser coil, prop fan, high pressure switch, and Lee -Temp head pres-
sure control. Unit is designed for outdoor location.
Centrifugal Fan
Includes scroll compressor, condenser coil, centrifugal blower assembly, high pressure switch, head
pressure control valve, Lee -Temp receiver and liquid line solenoid valve. Unit must be mounted
indoors. Duct flanges are optional.
Each Water Cooled split system consists of an evaporator section and a water /glycol condensing unit,
which includes scroll compressor, coaxial condenser, water regulating valve, and high pressure switch.
Design pressure is 150 psi (1034 kPa) as standard and 350 psi (2413 kPa) as optional.
Each Glycol Cooled split system consists of an evaporator section, a water /glycol condensing unit (as
described above), a pump package, and a 95 °F (35 °C) design ambient drycooler.
Introduction
• • installation
2.0 INSTALLATION
2.1 Room Preparation
The room should be well insulated and must have a sealed vapor barrier. The vapor barrier in the
ceiling can be a polyethylene film type. Use a rubber or plastic base paint on concrete walls and floors.
Doors should not be undercut or have grilles in them.
Outside (or fresh) air should be kept to an absolute minimum. Outside air adds to the heating, cool-
ing, humidifying and dehumidifying loads of the site. It is recommended that outside air be kept
below 5% of the total air circulated in the room and be preconditioned.
2.2 Equipment Inspection
Upon arrival of the unit, inspect all items for visible and concealed damage. Damage should be imme-
diately reported to the carrier and a damage claim filed with a copy sent to Liebert or to your sales
representative.
2.3 Location Considerations
The unit can sit on top of an accessible elevated flooring system. It may be necessary to furnish addi-
tional pedestal support below the unit to ensure maximum structural support (see Table 1). A sepa-
rate floor stand for the unit may be used as support, independent of the elevated floor and installed
prior to the flooring system.
Provide approximately 34" (864 mm) service clearance on the front of the unit.
NOTE
GLYCOOL units require 34" (864 mm) service clearance on the right side of the unit in
addition, to front seruice clearance.
Avoid placing units in an alcove or at the extreme end of a room that has a high aspect ratio (long,
narrow room). Ducted units can be placed in room corners or ends as long as front access is main-
tained. Placing units too close together will reduce the effectiveness of the air distribution.
S NOTE
Locate and remove shipping screw on fan motor base.
2.4 Equipment Handling
2.4.1 Handling With Skid
• Always keep the unit upright, indoors and protected from damage.
• If possible, transport the unit using a fork lift; otherwise, use a crane with belts or cables, avoid-
ing pressing on the top edges of the packaging.
• If using a fork lift, make sure the forks, if adjustable, are spread to the widest allowable distance
to still fit under the skid.
WARNING
THE INSTRUCTIONS LISTED BELOW ARE TO BE ADHERED TO WHEN
HANDLING THIS UNIT WITH OR WITHOUT THE SKID. THERE IS THE
POTENTIAL FOR THIS UNIT TO TIP OVER IF HANDLED IMPROPERLY,
WHICH WILL CAUSE DAMAGE TO THE UNIT AND COULD CAUSE INJURY
OR DEATH TO THE UNIT HANDLER(S).
CAUTION
While on the skid, the unit is too tall to fit through a standard height doorway
(83 inches or 2108 mm tall). Any attempt to move the unit, while on the skid,
through a standard doorway will cause damage to the unit.
2
Model
Lbs (kg)
036E/035E
535
(243)
060E/059E
545
(247)
042A/040A
595(270)
067A/065A
640
(291)
046WG /045WG
640
(291)
071 WG /070WG
710
(322)
061 G /058G
750
(341)
068C/072C
545
(247)
102C/101 C
555
(252)
Installation
2.4.2 Removal of Skid
• Remove the plywood skirting that keeps the skid and unit in place.
• Raise the Challenger 3000 off the skid. Liebert recommends using a fork lift (sec Figure 1)
or similar machine to ensure that the unit is lifted properly.
• Once the unit is raised, the skid can be removed.
Figure 1 Removing Challenger from skid
Remove plywood skirting holding Raise unit with fork lift
unit and skid in place. or similar machine.
Table 1
Unit net weight
3
Figure 2 Upflow (BU) cabinet dimensions
30 -1/2"
(775mm) 30 -1/2"
(775mm)
1 -5/8"
(41mm)
Blower outlet
w/ 1" (25.4mm)
flange
7-1/2"
(191mm)
13-1/4"
(337mm)
Filter
access
through
top
11 -3/4"
(299mm)
29 -3/4"
(756mm)
\ 29"
(737mm)
9 -518"
(244mm)
1 -3/4"
(44mm)
UNIT DIMENSIONAL DATA REAR VIEW
(rear return configuration)
/ 2 -1/2"
,F
Standard
piping
location
1" (25mm)
front &
sides; 3/4"
(19mm)
rear
94"
(2388mm)
718" (22.2mm) flange
for duct or plenum
connection
76"
(1930mm)
32-1/2"
(826mm)4,
ail
dimension
32 -1/2"
(826mm)
overally
dimension
32-1/2"
♦ (826mm),
overall
dimension
10-1/4"
(ILL
Shaded area indicates
recommended clearance of 34"
(864 mm) for component access.
Right -side access suggested for
GLYCOOL units.
UNIT DIMENSIONAL DATA FRONT VIEW
(front return configuration)
Installation
6 -7/8"
(175mm)
Standard
electrical
outlet
location
through
plenum
Air discharge
grille
12-1/2"
(318mm)
1 -7/8"
♦ (4\ mm)
Projection of
display bezel
5/8" (16mm)
Standard
electrical
outlet location
through unit
Blower outlet
w/ 1" (25.4mm)
flange
Return
air louvers
Figure 3 Downflow (BF) cabinet dimensions
30-1/2"
(775mm)
UNIT DIMENSIONAL DATA
32-1/2"
(826mm)
overall
dimension
1"
(25mm)
1" (25mm)
Standard electrical location
Standard piping location
30-1/2"
(775mm)
See specification
sheet for floor stand
height ordered
76"
(1930mm)
Floor level
30-1/2"
(775mm)
• 12"
4" (305mm)
(102mm)
9 "
(229mm)
8" (203mm)
1"
(25mm)
Ar"
30-1/2"
(775mm)
5
30-1/2"
(775mm)
32-1/2"
(826mm)
overall
dimension
30-1/2"
(775mm)
1" (25mm)
front & sides
3/4" (19mm)
rear
4
1"
(25mm)
1•
11E-. (25mm)
28-1/2"
(724mm)
30-1/2"
(775mm)
Projection of display
bezel 5/8" (16mm)
30-1/2"
(775mm)
Optional 1-5/8" (41mm)
flange for duct or
plenum connection
Installation
Shaded area indicates
recommended clearance of 34"
(864 mm) for component
access. Right side access
suggested for GLYCOOL units.
FLOOR CUTOUT DIMENSIONS
OPTIONAL FLOOR STAND DIMENSIONAL DATA
Model
Number
of Fans
Connection Sizes
(OD Copper)
Net Weight
Ibs (kg)
"A" Dimension
in (mm)
Hot Gas (in.)
Liquid (in.)
083
1
7/8
5/8
295 (133.8)
42 (1067)
104
1
1 -1/8
5/8
315 (142.8)
42 (1067)
t
Figure 7 Air cooled condensers
FAN SPEED CONDENSER
Liquid line
Secure each leg to condenser frame at all
points shown using hardware provided.
37 -7/8"
(962mm)
51- 7/16" „a / 43- 9/16"
(1306.5mm) (1106mm)
43- 3/16" 44'
(1097mm) (1118mm)
Table 4
Lee -Temp heater pad
connection box
Electric service
supplied by others
*B
Hot gas line
Air cooled condenser statistics
SINGLE FAN
AIR COOLED CONDENSERS
18" (457.2mm)
1 -3/4"
(44.5mm)
1 -314"
(44.5mm)
TYPICAL FOOTPRINT
1" 1 -3/4" 4 -1/4"
(25.4mm) (44.5mm) (108mm)
� I I I 114 1 11
4 -114"
(108mm)
1"
(25.4mm)
*B - Inverted traps are to be field - supplied and installed
(typ). When installing traps, provide clearance for swing
end of access door. Traps are to extend above base of
coil by a minimum of 7 -1/2" (190 mm)
37- 11/16'
(957.3mm)
1 -3/4" ` I
(44.5mm)+I
14
CONDENSER MOUNTING
9/16" (14.3mm)
diameter holes
8 places for
1/2" (12.7mm)
diameter bolts
A
LEE -TEMP CONDENSER
Liquid line
Common to all models. See Table 4
below for key to "A" dimension.
Alr Cooled Models
1" typ.
– ►I 1 4 — (25.4mm)
I
I
*B
Hot gas line
Electric
service
supplied by
others
1" typ.
(25.4mm)
1 -314"
- * 1 4— (44.5mm)
LT /zA 'V 3
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PILE COPY •
Perm lit
TA 1 T ENGINEERS S NOtrfliyvES i, INC., P.S.
5'!'twCTurtr t i F;tu lINPI I $ - , 6860 S44X)1 LAWN Ave. N. E„ &t!krt". R , WA9YI I5 (ZU6) 525 -7560 FAX 000 53746%
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1SNOO SNOWWIS Hd3SOP
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Tukwila,. WA
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STRUCTURAL CALCULATLONS
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Date: March 11, 2005
To:
From: Adam Myers
Phone: 206- 763 -1744
Ext.: 236
Stafania,
EVERGREEN °
R e f r i g e r a t i o n , I n c.
LETTER OF TRANSMITTAL
City of Tukwila
Stefania Spencer
6300 Southcenter Blvd #100
Tukwila, WA 98188
Regarding: VWR International
This letter is in response to the correction notice on application number M05 -025.
All items in the correction notice have been addressed with this response. Attached are
revised plans, equipment specifications, and structural calculations.
• Please give me a call if you have any questions.
ci rUxw,
MAR7 it15 "
PERmirc irei
727 SOUTH KENYON ST. - SEATTLE, WA. 98108
(206) 763 -1744 - FAX (206) 763 -2389
HVAC &
CONTROLS
DESIGN
INSTALLATION
SERVICE
RECENED
CITY OF TUKWILA
MAR 1 2005
PERMIT CENTER
CORRECTION
M
February 25, 2005
Mr. Doug Patton
727 South Kenyon Street
Seattle, WA 98108
City of Tukwila
RE: CORRECTION LETTER #1
Development Permit Application Number M05 -025
VWR International — 355 Treck Drive
Dear Doug:
Steven M. Mullet, Mayor
Department of Community Development Steve Lancaster, Director
This letter is to inform you of corrections that must be addressed before your development permit(s) can be approved.
All correction requests from each department must be addressed at the same time and reflected on your drawings. I
have enclosed comments from the Building Department. At this time, the Planning, Public Works Departments Fire
Departments have no comments.
Building Department: Allen Johannessen, at (206) 433 -7163, if you have questions regarding the .
attached memo.
Please address the attached comments in an itemized format with applicable revised plans, specifications, and /or
other documentation. The City requires that two (2) complete sets of revised plans, specifications and /or other
documentation be resubmitted with the appropriate revision block.
In order to better expedite your resubmittal, a `Revision Submittal Sheet' must accompany every resubmittal. I have
enclosed one for your convenience. Corrections /revisions must be made in person and will not be accepted through
the mail or by a messenger service.
If you have any questions, please contact me at (206) 433 -7165.
Sincerely,
encl
Stefania Spencer
Permit Technician
xc: File No. M05 -025
6300 Southcenter Boulevard, Suite #100 • Tukwila, Washington 98188 • Phone: 206 - 431 -3670 • Fax: 206 - 431 -3665
Building Division Review Memo
Date: February 25, 2005
Project Name: VWR INTERNATIONAL
Permit #: M05-025
Plan Review: Allen Johannessen, Plans Examiner
Tukwila Building Division
Allen Johannessen, Plan Examiner
A Building Division plan review has been conducted on the subject permit application. Please
address the following comments in an itemized format with revised plans, specifications and/or other
applicable documentation.
PLAN SUBMITTALS: (Min. size 11x17 to maximum size of 24x36; all sheets shall be the same size).
(Drawing and structural calculations sheets shall be original signed wet stamp, not copied.)
1 Show a simple layout design of the surrounding rooms complete with area dimensions and/or square
footage of the rooms.
2 On the plans, provide name and/or use of all rooms.
3 Show on the plans the location of the roof access.
4 Provide details that show how the roof - mounted AH unit shall be secured to the roof and support
sleepers (call out the type of hardware used). Include details of how the roof shall seal around
penetrations and fasteners.
5 Show the existing roof framing in relation to the supports of the AH unit to how it shall be sufficient to
support the AH unit.
6 Provide manufacture specifications sheet on the units installed. Provide information about the function
and location of thermostat. Information shall include weight of the roof - mounted unit.
Should there be questions conceming the above requirements, contact the Building Division at 206-431 -
3670. No further comments at this time.
ACTIVITY NUMBER: M05 -025
PROJECT NAME: VWR INTERNATIONAL
SITE ADDRESS: 355 TRECK DRIVE
Original Plan Submittal
DATE: 03 -11 -05
Response to Incomplete Letter #
X Response to Correction Letter # 1 Revision # /before permit is issued
DEPARTMENTS VS,GS
Build' vision
Public Works ❑
PERMIT COORD COPY
PLAN REVIEW /ROUTING SLIP
DETERMINATION OF COMPLETENESS: (Tues., Thurs.)
Complete I/ Incomplete ❑
Comments:
Permit Center Use Only
INCOMPLETE LETTER MAILED: LETTER OF COMPLETENESS MAILED:
Departments determined incomplete: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials:
TUES /THURS R�TING:
Please Route Structural Review Required ❑ No further Review Required ❑
REVIEWER'S INITIALS: DATE:
APPROVALS OR CORRECTIONS:
Approved ❑ Approved with Conditions [ Not Approved (attach comments) ❑
Notation:
REVIEWER'S INITIALS:
Fire Prevention ❑ Planning Division ❑
Structural ❑ Permit Coordinator
DUE DATE: 03 -15 -05
Not Applicable ❑
DUE DATE: 04 -12 -05
DATE:
Permit Center Use Only
CORRECTION LETTER MAILED:
Departments issued corrections: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials:
Documents /routing slIp.doc
2 -28 -02
PERMIT COORD COPY
A.
ACTIVITY NUMBER: M05 -025 DATE: 02 -18 -05
PROJECT NAME: VWR INTERNATIONAL
SITE ADDRESS: 355 TRECK DRIVE
X Original Plan Submittal Response to Incomplete Letter #
Response to Correction Letter #
Revision # after /before permit is issued
DE
ARTMENTS:
c d �asbs
Bui . G • P vis
Public Works
DETERMINATION OF COMPLETENESS: (Tues., Thurs.)
Complete
Comments:
Permit Center Use Only
INCOMPLETE LETTER MAILED: LETTER OF COMPLETENESS MAILED:
Departments determined incomplete: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials:
TUES /THURS R(1TING:
Please Route Structural Review Required ❑ No further Review Required ❑
REVIEWER'S INITIALS: DATE:
APPROVALS OR CORRECTIONS:
Approved ❑ Approved with Conditions ❑ Not Approved (attach comments)
Notation:
REVIEWER'S INITIALS:
Permit Center Use Only
CORRECTION LETTER MAILED: o
Departments issued corrections: Bldg,,Q. Fire ❑ Ping ❑ PW ❑ Staff Initials:S
Documents /routing stlp.doc
2.28 -02
I ERMIT COORD COPY
PLAN REVIEW /ROUTING SLIP
El
Fire Prevention
Structural ❑
Incomplete ❑
PERMIT COORD COPY
Planning Division
Permit Coordinator
DUE DATE: 02 -22 -05
Not Applicable ❑
DUE DATE: 03 -22 -05
DATE:
Summary of Revision:
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.ci.tukwila.wa.us
Revision submittals n :ust be submitted in person at the Permit Center. Revisions will not be accepted through
the mail, fax, etc.
Date: / � Plan Check/Permit Number:
MOS -025
•❑ Response to Incomplete Letter #
® Response to Correction Letter # 1
❑ Revision # after Permit is Issued
❑ Revision requested by a City Building Inspector or Plans Examiner
Project Name: VWR INTERNATIONAL
Project Address: 355 TRECK DRIVE
Contact Person: Doug Patton Phone Number: 7‘7- /7 9/
Sheet Number(s):
"Cloud" or highlight all areas of revision including date of revision
Received at the City of Tukwila Permit Center by:
Entered in Permits Plus on / -' I 1155
\applications\forms- applications on line\revision submittal
Created: 8 -13 -2004
Revised:
0 4/ /
6 7 C cru`er/ C /e; ti /8y r ' i S — 2 P S
1144-
- 2 cc.p 'f S
Steven M. Mullet, Mayor
Steve Lancaster, Director
CITY OF TUKWILA
E; s 2005
DEPARTMENT OF LABOR AND INDUSTRIES
EVERGREEN REFRIGERATION "INC
7'27.5.•KENYON ST • ^ : Y :
SEATTLE WA '. ;98108
F625- 052 -000 (8/97)
c
REMOVE SIDE EDGES FIRST.
THEN, CREASE AND TEAR THIS STUB ALONG PERFORATION
REGISTERED AS PROVIDED BY LAW ASs
CONST CONT... GENERAL
.'.:' ::..,, ( !#.• ...., EXP. DATE'`
CCO'I' EVERGI *201D7` "07/31/2006" ..
EFFECTIVE DATE .03/27/1980
EVERGRE&'.REFRIGERATION INC,:
727 S KENYON 'ST'
SEATT .WA 98108:... -
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g <tO,ul,
Si n ature
Issued by DEPAR ENT OF LABOR AND INDUSTRIES
Detach And Display Certificate
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Identification
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Billfold
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LOCATION MAP
SPLIT SYSTEM EQUIPMENT SCHEDULE
MARK
AH -1
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MANE.
SEER
LIEBERT
MODEL
BUO67AA -AAM
LIEBERT CFS104LZ
TONS.
6
AIRFLOW
CFM
. 1950
SP
INS
0.3"
COOLING
_ TOTAL
BTUH
60,000
EER
10.2
ELECTRICAL
VOLTS
(V)
460
PHASE
30
30
WEIGHT
LBS
450
450
NOTES
1,2
NOTES: 1. INTERNAL SMOKE DETECTOR.
2. INTERNAL THERMOSTAT.
5 TON
HVAC PLAN
SCALE : 1/4" . 1'-0"
14" Calibration Room
l a, =MS
No d angas doll M numb to do amps
of wont vollhout prior approval ri
• Widow ~ roll require a Haar pion submittal
and row Muds addltbni pion mil* les.
KARATE PER14T
1112Q1IRlD FOR:
O Meted
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PlumDirq
ti Gas PIpg
City Of Tukwila
WILDING DIVISION
•
COMPLETION AND COMMISSIONING FOR
MECHANICAL SYSTEMS
RECORD DRAWINGS OF THE ACTUAL INSTALLATION SHALL BE PROVIDED TO THE
BUILDING DINNER WITHIN 90 DAYS OF THE DATE OF SYSTEM ACCEPTANCE
PER WA ENERGY CODE (WSEC) SECTION 1418.1.
AN OPERATING MANUAL AND MAINTENANCE MANUAL SHALL BE PROVIDED TO THE
GUI LDI NG OWNER PER WSEC SECTION 1418.2.
ALL HVAC SYSTEMS SHALL BE BALANCED AND A WRITTEN BALANCE REPORT SHALL BE
PROVIDED TO THE OWNER PER WSEC SECTION 14516.3.
ADJUSTED, - '•, ' ' = ' -7 •
SEQUENCES OF OPERATION SHALL BE TESTED TO ENSURE THAT THEY
OPERATE IN ACCORD WITH SPECIFICATIONS AND APPROVED PLANS, AND A COMPLETE
REPORT OF TEST PROCEDURES AND RESULTS SHALL BE FILED WITH THE OWNER
PER WSEC SECTION 1418.4.1.
FOR ALL OTHER SYSTEMS. HVAC CONTROL SYSTEMS SHALL BE TESTED, CALIBRATED
AND ADJUSTED, SEQUENCES OF OPERATION SHALL BE TESTED TO ENSURE THAT THEY
OPERATE IN ACCORD WITH SPECIFICATIONS AND APPROVED PLANS PER WSEC SECTION 1418.4.2;
NECESSARY TESTS SHALL BE IDENTIFIED PER WSEC SECTION 1416.4.2.1;
A PRELIMINARY COMMISSIONING REPORT OF TEST PROCIPURES AND RESULTS BE
PREPARED PRLQR TO ISSUANg OF A FINAL QE$TjfICATE Of OCCUPANCY PER WSEC SECTION
1418 4 2.2.1 AND 1418.4.2.3; AND A COMPLETE FINAL. COMMISSIONING REPORT OF TEST
PROCEDURES AND RESULTS SHALL BE FILED WITH THE OWNER PER WSEC SECTION 1416.4.2.2.2.
FILE DOPY
No. , M O5'Q2
.
Men mview approval Is subject to errors and omissions.
ftproval of construction documents does not authorize
of approved � adopted Code a ordinance. Receipt �� ao�� adoiowleclpst
Date
City of Vole
BUILDING DIVISION
5
PUcT1MORK
1.1 ALL DUCT DIMENSIONS ON PLAN ARE CLEAR INSIDE DIMENSIONS ADD 2' TO EACH
DIMENSION TO OBTAIN OUTSIDE DIMENSION. ADO 4"TO EACH DIMENSION IF
DUCTWORK IS ON THE EXTERIOR OF BUILDING.
1.2 THE FIRSY NUMBER ON ALL DUCT DIMENSIONS IS THE WDTH AND THE SECOND
NUMBER IS THE HEIGHT.
1.3 MATERIALS WITHIN DUCTS OR PLENUMS SHALL HAVE A FLAME SPREAD RATING
LESS THAN 25 AND A FLAME SMOKE DEVELOPMENT RATING LESS THAN 50, PER
IMC 602.2.1
1 4 SEAL ALL TRANSVERSE JOINTS FOR DUCTWORK WTH STATIC PRESSURE BETWEEN
112 INCHES AND 2 INCHES. DUCTWORK WHICH IS DESIGNED TO OPERATE AT
PRESSURES ABOVE 112 INCH WATER COLUMN STATIC PRESSURE SHALL BE SEALED
IN ACCORDANCE WITH STANDARD RS-7.
1.5 ALL DUCT GAUGES PER SMACNA, IMC 803.4.
1.6 ALL DUCT SUPPORTS PER SAAAGNA, AMC 603-10.
1.7 ATTACH DIFFUSERS AND GRILLES TO T -BAR GRID PER CODES.
1.8 BALANCIN3 DAMPERS ARE TO BE INSTALLED ON ALL BRANCH DUCTS OR DIFFUSERS.
pUCT INSULATION .
2.1 INSULATE OR LINE DUCTWORK PER WA STATE ENERGY AND MECHANICAL CODES.
GENERAL CQNTRACTOR
31 GENERAL CONTRACTOR TO PROVIDE AND CUT OPENINGS FOR ALL ROOFTOP
CEILING FLOOR AND WALL PENETRATIONS, INCLUDING VVEATHERPROOF SEAUNG
AND FIRE PROOF LINING PER IMC & IBC.
3.2 GENERAL CONTRACTOR TO VERIFY PENETRATION LOCATION AND DIMENSIONS
WTH ERI EEFORE FRAMING OPENINGS.
3.3 GENERAL CONTRACTOR TO PROVIDE ALL DEMOLITION, PATCHING, AND PAINTING
AS REQUIRED FOR MECHANICAL WORK
3.4 GENERAL CONTRACTOR TO PROVIDE ADEQUATE STRUCTURAL SUPPORT AS
REQUIRED FOR MECHANICAL WORK
8.5 GENERAL CONTRACTOR TO PROVIDE ADEQUATE ENGINEERING AS REQUIRED FOR
MECHANICAL WC)RK
3.8 GENERAL CONTRACTOR TO PROVIDE SERVICE ACCESS PER CODE TO ALL
MECHANICAL EQUIPMENT.
3.7 GENERAL CONTRACTOR TO LEVEL ALL FACTORY CURBS PROVIDED BY ERI, PROVIDE
ALL CANT STRIPS AND CURB INSULATION, AND SEAL AGAINST LEAKS.
3.8 GENERAL CONTRACTOR TO PROVIDE ALL CUTTING AND PATCHING OF T -BAR CEILING
AS REQUIRED FOR HVAC INSTALLATION.
3.9 GENERAL CONTRACTOR TO PROTECT ALL OPENINGS THROUGH FLOORS PROVIDED
FOR DUCTWORK INSTALLATION IN ACCORDANCE WTH TABLE 801 OF INTERNATIONAL
BUILDING CODE, WHERE REQUIRED BY SECTION 707 OF IBC.
ELECTRICAL
.4.1 ERI TO INSTALL ALL LOW VOLTAGE CONTROL WIRING, CONDUIT WLL BE PROVIDED
SY ELECTRICAL CONTRACTOR.
4.2 ELECTRICAL CONTRACTOR TO PROVIDE ALL ELECTRICAL CONNECTIONS,
DISCONNECTS, AND STARTERS FOR MECHANICAL EQUIPMENT
4.3 ELECTRICAL CONTRACTOR TO VERIFY EQUIPMENT SIZES LOADS AND LOCATIONS
WTH ERI MECHANICAL PLAN AND WTH FIELD CONDITIONS.
4.4 ELECTRICAL CONTRACTOR TO INTERLOCK BATHROOM EXHAUST FANS WITH UGHT
SWITCH.
.4.5 ERI TO PROVIDE 7 -DAY NIGHT SETBACK, PROGRAMMABLE TYPE T-STAT WITH
CAPABIUTY OF 5•F DEADB'ND.
4.0 ERI TO VERIFY FINAL LOCATION OF THERMOSTAT WITH CUSTOMER.
PLUMBING
5.1 PLUMBING CONTRACTOR TO FURNISH AND INSTALL ALL GAS PIPING FOR
MECHANICAL. EQUIPMENT PER CODE.
5.2 PLUMBING CONTRACTOR OFFSET VENTS 10 FEET MINIMUM FROM ALL HVAC FRESH
AIR INTAKES OR 2' ABOVE HIGHEST POINT OF INTAKE, AMC 401.5.1.
5.3 CONDENSATE DRAINS FROM RTU BY ERI TO DRAIN WITHIN 12" OF UNIT.
CONDENSATE DRAINS FOR AIR HANDLERS BY PLUMBER.
gNERGY CQDE COMPLIANCE
6.1 AT A MINIMUM, EACH FLOOR IS TO BE CONSIDERED A SEPERATE ZONE. VERIFY
THERMOSTATIC CONTROL FOR EACH ZONE AS INDICATED ON PLANS.
45.2 OUTSIDE AIR INTAKES EXHAUST OUTLETS, AND REUEF OUTLETS SERVING
CONDITIONED SPACES SHALL BE EQUIPED WTH DAMPERS WHICH CLOSE
AUTOMATICALLY WHEN THE SYSTEM IS OFF OR UPON POWER FAILURE,
PER WNSEC SEC. 1412.4.1.
6.3 AIR ECONOMISERS WHERE REQUIRED BY CODE ARE INDICATED BY THE EQUIPMENT
SCHEDULE AT 100% CAPABILITY, CONTROL AND OPERATION OF THE ECONOMISER
SHALL COMPLY WITH WSEC SEC. 1423.
ADE COMPLIANCE
7.1 WHERE REQUIRED PROVIDE AUTOMATIC SHUTOFF ACTIVATED BY SMOKE DETECTORS
IN EACH SYSTEM DEUVERING HEATING OR COOLNG AIR IN EXCESS OF 2000 CFM.
DETECTORS SHALL BE LOCATED IN THE MAIN RETURN AIR PER AMC 606
SYMBOL
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SYMBOL LEGEND
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GENERAL NOTES
DUCT SECTION SUPPLY
DUCT SECTION - RETURN /EXHAUST
RECTANGULAR DUCT
ROUND DUCT
FLEXIBLE DUCT
VOLUME DAMPER
ZONE DAMPER
MOTORIZED DAMPER
FIRE DAMPER
FIRE /SMOKE DAMPER (120V POWER REC1.)
1
CEILING RADIATION DAMPER
SMOKE DETECTOR
THERMOSTAT
SENSOR
REFRIGERANT LINES
NATURAL GAS LINES
CEILING DIFFUSER (SUPPLY)
CEILING DIFFUSER (RETURN /EXHAUST)
EXHAUST FAN (CEILING MOUNTED)
I NL.INE FAN
PROPELLER FAN
SIDEWALL DIFFUSER
DUCT FITTING
DATUM
UNIT TAG
DUCT RISER
DESCRIPTION
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DATE:
REVISIONS
NI DATE I ITEM
10 Q 03 -03 -OS GEN. REV.
03 -03 -05 GEN. REV.
02 -16 -05
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