HomeMy WebLinkAboutM07-0164 Cut Sheets* 1309 Elkhorn Drive
Vail, Colorado 81657
970 -479 -2158
VO FF 1 OW Fax: 970- 479 -21 G6
Department o f Public Works & Transportation 111 zuzuw. vailgov. com
�p7 t�163
Memorandum
To:
Charlie Davis, Chief Building Official, Town of Vail
From: Todd Oppenheimer, Capital Projects Manger, Town of Vail
Date: November 5, 2007
RE: Seibert Circle — Response to Building Review Comments.
Attached please find 3 copies of the following documents.
I • Sheet M1.0, Mechanical Legend, Specs, Detail, and Schedule.
2• Sheet M2.0, Mechanical Site Plan and Details.
3. Product Specification Sheet for Honeywell RM7824A1006 Relay Module to
supercede Product Data Sheet for Honeywell EC78I OA,EC7820A relay Module.
4• Product Information Sheet ESR -1031, for Gastite Flexible Gas Piping System.
5. Product Information Sheet for Cresline PE 2406 Yellow Gas Pipe.
6. Proposal for 3` Party Product and Performance Testing, Dated October 31, 2007,
from Radco Inc. to WET Design.
7. Sheet A -1 l La, Water Service Site Plan.
8. Backflow Device Detail, Dated October 31, 2007.
9. Specification Sheet, Febco 825YA, Angle Pattern Reduced Pressure Zone
Assemblies, Backflow Prevention Device.
10. Email from Fred Haslee, ERWSD, to Todd Oppenheimer approving
documentation referenced in #4, 5, and 6 above.
11. Sheet A -11 Lb, Protective Guardrail Site Plan, Dated October 15, 2007
12. Seibert Circle Feature Railing Sketch.
13. Email from John Power to Charlie Davis approving documentation referenced in
48 and 9 above.
14. Email from Tom Kassmel to Charlie Davis approving overflow /drain pipe
discharge into the storm sewer.
15. Sheet S -121, Structural Sections, from SEH. Please note this document is not
required per Building Department Review Comments. It is being submitted to
make it part of the Record Documents for the project.
Please contact me if you have any questions or require additional information.
Cc Greg Hall, Director of Public Works and Transportation.
I
% J RECYCLED PAPER TOWN OF VA I L
(114 7) Charlie Davis - signage on Se Circle feature Page 1
From:
John Power
To:
Charlie Davis
Date:
11/01/2007 11:50 AM
Subject:
signage on Seibert Circle feature
CC: Greg Hall; Todd Oppenheimer
The signage and railing Todd 0 has reviewed with me on the water /fire feature meets my risk concerns.
Fountain Connection to Storm
From:
Tom Kassmel
To:
Charlie Davis
Date:
11/02/2007 4:07 PM
Subject:
Fountain Connection to Storm
CC: Greg Hall; Todd Oppenheimer
Charlie
The Town will accept the overflow /drain pipe to discharge into the storm sewer.
Thanks
Thomas Kassmel, P.E.
Town Engineer
Town of Vail
Public Works Department
1309 Elkhorn Dr.
Vail, CO 81657
(970) 479 -2235
ir7TnrRFOu • JlTinr.
re; nn� • if ipu n <
RESOURCES
APPLICATIONS
DESIGNS &
CONTROLS, INC.
November 08, 2006
Mr. Chris Gunion
Plans Examiner
Town of Vail, CO
75 S. Frontage Road
Vail, CO 81657
Dear Mr. Gunion:
3220 E. 59 STREET
LONG BEACH, CA 90805
Tel. (562) 272 -7231
Fax (562) 529 -7513
www.RADCOinc.com
email: info @RADCOinc.com
Contract for Third Party Evaluation of Outdoor
Open Flame Decorative Gas Appliance
cgunion @vailgov.com
RE
VIA:
This letter is to serve as confirmation that RADCO has a contractual agreement with WET Design, Inc.
of Sun Valley, CA to conduct an on -site third -party field evaluation and performance testing program
on the unlisted Outdoor Decorative Gas Appliance to be installed at the Siebert Circle Project in the
Town of Vail, CO.
Because the decorative gas appliance is not listed or labeled as required by Section 301.3 of the
International Fuel Gas Code, the purpose of RADCO's third party field evaluation and performance
testing program will be to meet with the requirements of Section 105 of the same code.
Upon satisfactory completion of RADCO's field evaluation and performance testing program, RADCO
shall submit a formal report to you and a RADCO Field Evaluation Acceptance Label, bearing the
RADCO registered trademark, will be applied to the appliance.
If you have any questions or comments please don't hesitate to call.
Sincerely
R. Scott Schaffner, Manager
Gas Testing Lab & Field Services
cc: Todd Oppenheimer, ASLA - Town of Vail
A ccl IF DITED
CAULME
CRESLINE PLASTIC PIPE CO., INC.
FORM NO. 161 -YG SPECIFICATIONS
PRICES ARE LISTED ON FORM MLP -1.
PLEASE ORDER BY PART NUMBER.
PE 2406
YELLOW GAS PIPE
APRIL, 2006
PLASTIC PIPIE
AND PPFRA m , r , m 0 ` C ` , ' A ' T,.N
YELLOW
GAS TUBING iiz" 7 .625 .090 6.44
YG - CTS
WHITE LABEL /BLACK PRINT 1 11 1.125 1 .101 13.99
CRESLINE POLYETHYLENE GAS CONFORMS TO PE 2406, ASTM D 2513.
CRESLINE PLASTIC PIPE CO., INC.
600 Cross Pointe Blvd.
Evansville, IN 47715
264 Silver Spring Rd.
Mechanicsburg, PA 17050
MIN.
WEIGHT
COIL
ART
SIZE
SDR
O.D.
WALL
PER 100'
LENGTHS
NO.
;;27005]
150
' /2 "
9.3
.840
.090
9.13
500
27010
YELLOW
'/4
150
27120
GAS PIPE
11
1.050
.095
12.25
500
27125
YG - IPS
1
150
27130
11
1.315
.120
19.37
500
27135
150
27140
1'/4
11
1.660
.151
30.81
500
27145
150
27150
1 1 /4
10
1.660
.166
33.53
500 1
27155
150
27160
1
11
1.900
.173
A 4
500
27165
100
27170
WHITE LABEUBLACK PRINT
2
11
2.375
.216
63.10
500
27175
YELLOW
GAS TUBING iiz" 7 .625 .090 6.44
YG - CTS
WHITE LABEL /BLACK PRINT 1 11 1.125 1 .101 13.99
CRESLINE POLYETHYLENE GAS CONFORMS TO PE 2406, ASTM D 2513.
CRESLINE PLASTIC PIPE CO., INC.
600 Cross Pointe Blvd.
Evansville, IN 47715
264 Silver Spring Rd.
Mechanicsburg, PA 17050
2100 South 35th St.
Council Bluffs, IA 51501
3801 East Hwy. 31
Corsicana, TX 75109
812 -428 -9350
717 - 766 -2566
712- 322 -2294
903 - 872 -8475
150
27705
500
27710
150
27740
500
27745
www.cresiine.com
Fax 812 -428 -9353
Fax 717- 697 -2371
Fax 712- 322 -6673
Fax 903 - 872 -7732
CRESLINE YELLOW PE GAS PIPE AND TUBING IS MANUFACTURED AND RATED ACCORDING TO THE
FOLLOWING:
STANDARDS AND GUIDELINES
ASTM D 2513
ASTM D 1248
ASTM D 3350
ASTM D 678
CODE OF FEDERAL REGULATIONS, U.S. DEPT. OF TRANSPORTATION PIPELINE SAFETY REGULATIONS
TITLE 49, PART 192
MATERIAL LISTED IN PPI - TR4
nr nAnn -
rC Lf+Ub TCLLUW UA5 PIPE
PROPERTIES
ASTM TEST
ENGLISH UNITS
SI UNITS
CELL CLASSIFICATION
D 3350
234333E
234433E
MELT INDEX
DENSITY (YELLOW)
TENSILE STRENGTH AT YIELD (2 IN /MIN)
TENSILE STRENGTH AT BREAK (2 IN /MIN)
NOTCH TENSILE (PENT)
D 1238
D 1505
D 638
D 638
F 1473
2,800 PSI
4,500 PSI
> 100 HRS
0.20g/10 MIN
0.943 g /cc
19.3 Mpa
31.0 Mpa
> 100 HRS
ELONGATION AT BREAK (2 IN /MIN)
VICAT SOFTENING POINT
FLEXURAL MODULUS
D 638
D 1525
D 790
> 800 %
248 DEGREES F
10500 PSI
712- 322 -2294
> 800 %
120 DEGREES C
690 Mpa
THERMAL STABILITY
BRITTLENESS TEMPERATURE
ENVIRONMENTAL STRESS CRACK RESISTANCE
NOTCHED IZOD IMPACT STRENGTH
D 2513/D 3350
D 746
D 1693
D 256
428 DEGREES F MIN
< 180 DEGREES F
> 5,000 HRS
10 FT- LBF /IN
220 DEGREES C MIN
< 118 DEGREES C
> 5,000 HRS
0.53 KJ /m
HYDROSTATIC DESIGN BASIS @ 23 DEGREES C
D 2837
1250 PSI 1
8.6 MPa
PLEASE CONSULT THE FOLLOWING REFERENCES FOR RECOMMENDED INSTALLATION METHODS:
- AMERICAN GAS ASSOCIATION PLASTIC PIPE MANUAL FOR GAS SERVICE
-CODE OF FEDERAL REGULATIONS, TITLE 49, SUBCHAPTER D
- PLASTIC PIPE INSTITUTE TR33
PLEASE REFER TO PLASTIC PIPE INSTITUTE TR22 WHEN USING THIS PRODUCT FOR TRANSPORATION
OF PROPANE GAS.
MAXIMUM OPERATING PRESSURES FOR PE 2406 YELLOW GAS PIPE
SDR
73.4 DEGREES F
7
100 PSI
9.3
96 PSI
10
88 PSI
11
80 PSI
CRESLINE PLASTIC PIPE CO.,
INC.
www.cresline.com
600 Cross Pointe Blvd.
Evansville, IN 47715
812 -428 -9350
Fax 812 -428 -9353
264 Silver Spring Rd.
2100 South 35th St.
Mechanicsburg, PA 17050
717- 766 -2566
Fax 717- 697 -2371
3801 East Hwy. 31
Council Bluffs, IA 51501
Corsicana, TX 75109
712- 322 -2294
Fax 712- 322 -6673
903- 872 -8475
Fax 903 - 872 -7732
Riallca
RESOURCES
0 APPLICATIONS
DESIGNS &
CONTROLS, INC.
October 31, 2007 3220 E. 59TH STREET
LONG BEACH, CA 90805
Mr. William L. De Leon Tel. (562) 272 -7231
Fax (562) 529 -7513
WET DESIGN WWW.RADCOinc.com
10817 Sherman Way email: info @RADCOinc.com
Sun Valley, CA 91352
RE: RADCO Proposal PR -G9061
Dear Mr. De Leon: VIA: bill.deleon @wetdesign.com
Thank you for inquiring about a RADCO third party product evaluation and performance testing
program for your custom built Water /Fire Feature to be installed at the Vail Seibert Circle in Vail, CO.
This proposal outlines the procedures, costs, and timing for obtaining RADCO's "Recommendation of
Acceptance" of the unlisted decorative gas appliance to the local Authorities Having Jurisdiction in
Vail, CO. Acceptance of the Fire Feature by the authorities in Vail is not within RADCO's control,
however, we do believe we can assist you in obtaining their acceptance.
BACKGROUND
RADCO is headquartered in Southern California with offices located throughout the country. The firm
is in its 40 year and is well qualified to undertake the evaluation and testing of your decorative
water /fire feature. RADCO is recognized by Building and Fire Officials throughout the United States
as a Testing Laboratory and Quality Control /Inspection Agency through our accreditation by the
International Accreditation Services, Inc. For copies of our accreditation certificates as well as
additional information on RADCO's history, capabilities, and areas of expertise please visit our web
site at www.radcoinc.com.
SCOPE OF WORK
RADCO proposes the following third party field evaluation program
Consult with the local building and fire departments regarding the proposed installation and
verify their acceptance of RADCO's proposed third party program, and, assist as needed in
obtaining a temporary release of the permits needed to get the equipment into its intended
operating state.
2. Conduct a design and installation evaluation of the decorative appliance and its installation for
compliance with applicable portions of the following nationally recognized codes and
standards:
NFPA 54 National Fuel Gas Code
NFPA 70 National Electrical Code
NFPA 86 Standard for Ovens and Furnace
NFPA 160 Standard for Flame Effects Before a Proximate Audience
ANSI Z21.50 Standard for Decorative Gas -Fired Appliances
ANSI Z83 Series Standards for Gas Utilization Equipment
IAS Desk Standard for Outdoor Decorative Gas Appliances
The International Mechanical, Plumbing, and Fuel Gas Codes
NOTE: In the absence of nationally recognized codes and standards, RADCO utilizes sound engineering and industry
accepted practices for the evaluation process.
:1c+:ret:urrN:u
Mr. William L. De Leon
WET DESIGN
October 31, 2007
Page 2
Once the water /fire feature and its installation has been found in compliance with applicable codes,
standards, and /or sound engineering and industry accepted practices, RADCO shall conduct the
performance testing portion of our program:
3. Detailed procedures of the testing to be conducted cannot be finalized until the actual
installation has been evaluated by RADCO, however, it is anticipated that the testing program
will focus on the items listed below.
a) Tests to verify gas tightness of the fuel supply piping. Pressure tests will be conducted
utilizing a 24 hour chart recorder for providing a record of the results.
b) Tests to confirm adequate pilot and main burner ignition and operating characteristics
at minimum, normal, and maximum fuel supply pressures as well as with reduced
ignition and /or power supply.
C) Temperature tests to determine the maximum temperature rise on gas train
components, wiring, operating and safety controls, flue gases, proximate guests and
any adjacent combustible construction deemed susceptible to excessive temperature
rises due to the proximity of the burner flames.
d) Combustion evaluation of the flue products for their CO (carbon monoxide), CO
(carbon dioxide), O (oxygen), and temperature levels.
e) Burner ignition and operating characteristics tests with the fire feature exposed to wind
and rain conditions.
f) Functional tests of all safety related controls.
4. Evaluate the support documentation provided for the intended user of the equipment. This
documentation should at a minimum include:
• Instructions for Lighting the Equipment.
• Instructions for Operating the Equipment.
• Instructions for Shutting Down the Equipment.
• Instructions for Maintaining the Equipment.
• As Built Assembly and Installation Drawings.
• Detailed Replacement Parts List
Prepare a formal report on the results of the third party evaluation complete with the
evaluation results, standards used, test procedures, allowable limits, test results, drawings,
photographs, and any recommendations and /or requirements.
TIME AND COSTS
RADCO's efforts will be billed at our standard published rates (copy enclosed) for time and expenses.
We estimate the following amount of Senior Principal time will be required to conduct the proposed
scope of work
Approximately -- mandays to consult with local officials and conduct the design and
installation evaluations (Items 1 and 2).
Approximately -- mandays to develop and conduct the performance testing (Item 3).
Approximately -- manday to review the support documentation, compile test results
and prepare the formal test report (Items 4 and 5).
Mr. William L. De Leon
WET DESIGN
October 31, 2007
Page 3
The total estimated time is -- mandays of Senior Principal time at a total estimated cost of $------ - -plus
travel time and expenses from our Long Beach, CA facility. If additional time is required to complete
the project due to: a) excessive code compliance discrepancies resulting in time for corrective
consultation; b) excessive test failures resulting in additional time re- testing; and /or, c) time preparing
any support documentation that was not properly provided, will be billed as an extra at RADCO's
standard published Senior Principal rates for time and expenses.
In order to begin planning for the work, please sign both copies of the enclosed agreement forms
indicating your acceptance of this proposal and send both copies of the signed forms back to us
along with your retainer check in the amount of $ ---------- USD. The returned agreement forms will
then be signed by RADCO and one copy will be returned to you for your files.
The retainer payment will be applied incrementally against the costs incurred. We appreciate the
opportunity to present this proposal, which remains in effect for ninety days, and look forward to
working with you on this project. If you have any questions or comments, please feel free to call.
Sincerely,
RADCO
R. Scott Schaffner, Manager
Gas Test Lab & Field Services
■ 1 CI RESOURCES
APPLICATIONS
DESIGNS &
CONTROLS, INC.
November 08, 2006 3220 E. 59 TH STREET
LONG BEACH, CA 90805
Tel. (562) 272 -7231
Mr. Chris Gunion Fax (562) 529 -7513
www.RADCOinc.com
Plans Examiner email: info @RADCOinc.com
Town of Vail, CO
75 S. Frontage Road
Vail, CO 81657
RE: Contract for Third Party Evaluation of Outdoor
Open Flame Decorative Gas Appliance
Dear Mr. Gunion: VIA: cgunion @vailgov.com
This letter is to serve as confirmation that RADCO has a contractual agreement with WET Design, Inc.
of Sun Valley, CA to conduct an on -site third -party field evaluation and performance testing program
on the unlisted Outdoor Decorative Gas Appliance to be installed at the Siebert Circle Project in the
Town of Vail, CO.
Because the decorative gas appliance is not listed or labeled as required by Section 301.3 of the
International Fuel Gas Code, the purpose of RADCO's third party field evaluation and performance
testing program will be to meet with the requirements of Section 105 of the same code.
Upon satisfactory completion of RADCO's field evaluation and performance testing program, RADCO
shall submit a formal report to you and a RADCO Field Evaluation Acceptance Label, bearing the
RADCO registered trademark, will be applied to the appliance.
If you have any questions or comments please don't hesitate to call.
Sincerely
RADCO
R. Scott Schaffner, Manager
Gas Testing Lab & Field Services
cc: Todd Oppenheimer, ASLA - Town of Vail
•
Accatef>rrr:u
J
Pa
C
W
0 ry
Q W
W
C W
ry >
Q W
� Z
LO C
CU F-
CC) C/)
C LL-
p C
W W
H
r., J
3
W
Q U
W CO
C �
U
r3
W
Q �
W
C �
W C
U
W
iy r
C H
J
C Q
J
J C
J �-
J ,
J CLJ
LLJ
U
H
Q
3 ►-_
C o
J O
1
U
Q M
P4 ry
I �
W C
�-
U U
� C
W
C4
ry
W
Q
9 J
W
J
U
ry
H
U W
f- J
r Q
W U
H
W C
C4 Z
ES -F -825YA
�
n
Series 825YA
Angle Pattern Reduced
Pressure Zone Assemblies
Size 3�4" - 2 " (20mm - 50mm)
The FEBCO Series 825YA Reduced Pressure Zone Assemblies are used to
protect against toxic fluids in water services to industrial plants, hospitals,
morgues, mortuaries, and chemical plants. They are also used in irrigation
systems, boiler feeds, water lines and other installations requiring the
highest level of mechanical protection. End connection — NPT ANSI /ASME
81.20.1
Features
• Installation versatility simplifies new and retrofit installations.
• Eliminates pipe elbows, nipples and unions from the installation.
• Reduces installation time, labor costs and materials.
• Compact design simplifies retrofit.
• Integral flanged union connections allow assembly to be removed from
the line for freeze protection or maintenance without the danger of
spool substitution.
• Approved by the Foundation for Cross - Connection Control and Hydraulic
Research at the University of Southern California.
• Modular relief valve and check valve internal components for ease of
maintenance.
• Smaller, less costly protective enclosures can be used to
provide freeze and vandalism protection due to compact size
of valve.
• Field tested design for reliability and performance.
• Replaceable seat rings for longer valve life.
• Low head loss for optimum performance.
operation
In a flow condition, the check valves are open with the pressure between
the checks, called the zone, being maintained at least 5psi (34 kPa) lower
than the inlet pressure. The relief valve is held closed by the pressure dif-
ferential.
Should abnormal conditions arise under no flow or reversal of flow, the
differential relief valve will open and discharge to maintain the zone at least
2psi (14 kPa) lower than the supply.
When normal flow resumes, the zone's differential pressure will return and
the relief valve will close.
Approvals — Standards
• Approved by the Foundation for Cross - Connection Control and Hydraulic
Research at the University of Southern California. .
• ANSI /AWWA C511 Conformance
A55E S QD
1013 B64.4
Specifications
The reduced pressure zone assemblies shall consist of two independently
operating, spring loaded, 'Y° pattern check valves and one hydraulically
dependent differential relief valve. Should the differential between the
upstream and the zone of the unit drop to 2psi (14 kPa), the differential
relief valve shall open and maintain the proper differential.
Mainline valve body and caps including relief valve body and cover shall be
bronze. Check valve moving members shall be center stem guided. Relief
valve shall have a removable seat ring. Check valve and relief valve compo-
nents shall be constructed so they may be serviced without removing the
valve body from the line. All seat discs shall be reversible.
The assembly shall include flanged unions located between the mainline
valve body and the ball valve shutoffs to allow for field removal for freeze
protection or maintenance without danger of spool replacement.
The assembly shall be rated to 175psi (12.1 bar) water working pressure
and water temperature range from 32 °F to 140°F (0 °C — 60 °C). The assem-
bly shall meet the requirements of the USC Foundation of Cross- connec-
tion Control and Hydraulic Research, Eighth Edition.
The assembly shall be a FEBCO Series 825YA or prior approved equal
Materials
Main valve body:
Bronze
Relief valve body:
Bronze
Elastomers:
Nitrile Seat Discs
Diaphragms:
Nitrile, fabric reinforced
Springs:
Stainless Steel
Pressure — Temperature
Maximum working pressure: 175psi (12.1 bar)
Hydrostatic test pressure: 350psi (24.1 bar)
Temperature range: 32 °F to 140 °F (0°C to 60 °C)
Job Name
Job Location
Engineer
Approval
Contractor
Approval
Contractor's P.O. No.
Representative
FEBCO product specifications in U.S. customary units and metric are approximate and are provided for reference only. For precise mea-
surements, please contact FEBCO. FEBCO reserves the right to change or modify product design, construction, specifications, or materials
without prior notice and without incurring any obligation to make such changes and modifications on FEBCO products previously or subse-
quently sold.
Series 825YA / Vertical Up Flow In - Vertical Down Flow Out
Legend:
A Overall lay length, outside dimension
B Centerline of inlet shutoff to centerline of outlet shutoff
C Centerline of assemble to top
D End of inlet shutoff to centerline of assembly
D7 Centerline of assembly to end of outlet shutoff
E Centerline of assembly to outside of relief valve
F Bottom of relief port to end of inlet shutoff
G Centerline of assembly to outside of flange
3! r
G
i
Dimensions — Weights
Size: 3 /a" - 2" (20 - 50mm)
'G Dimension are based on standard vertical flow in/ vertical flow out configuration.
Note: All dimensions are approximate. Allowances must be made for normal manufacturing tolerances
Series 825YA / Vertical Up Flow In - Horizontal Flow Out
Legend:
A Overall lay length, outside dimension
B Centerline of inlet shutoff to centerline of outlet shutoff
C Centerline of assemble to top
D End of inlet shutoff to centerline of assembly
E Centerline of assembly to outside of relief valve
F Bottom of relief port to end of inlet shutoff
G Centerline of assembly to outside of flange
E
1
G
Dimensions — Weights
Size: 3 /4" - 2" (20 - 50mm)
SIZE (DN) DIMENSIONS WF1r14T
n. mm
A
in. mm
A
C
in. mm
B
in. mm
n. mm
C
D
lbs. kqs
Dt
20
12 5 ie
E
F
302
G•
114
3%
92
in.
mm
in.
mm
in.
mm
in.
mm
in.
mm
in.
mm
in.
mm
in.
mm
In.
mm
lbs. I
k s
3 /4
20
10
254
8
216
3 1 /4
83
4 7 /a
124
4s /s
118
4
105
3
89
1
41
15.0
6.8
1
25
10 1 /4
260
8
216
3 1 /4
83
5 1 /4
133
5
127
4 1 /a
105
3
98
6
41
6.5
7.5
1Y2
40
14 1 /4
362
11
292
4
114
6'/a
175
6
165
5
127
4%
118
]E2%
67
E38.0
17.2
2
50
14'A
378
11
292
41/2
114
7
191
7
181
5
127
5 1 /4
133
2
67
41.0
18.6
'G Dimension are based on standard vertical flow in/ vertical flow out configuration.
Note: All dimensions are approximate. Allowances must be made for normal manufacturing tolerances
Series 825YA / Vertical Up Flow In - Horizontal Flow Out
Legend:
A Overall lay length, outside dimension
B Centerline of inlet shutoff to centerline of outlet shutoff
C Centerline of assemble to top
D End of inlet shutoff to centerline of assembly
E Centerline of assembly to outside of relief valve
F Bottom of relief port to end of inlet shutoff
G Centerline of assembly to outside of flange
E
1
G
Dimensions — Weights
Size: 3 /4" - 2" (20 - 50mm)
SIZE (DN) DIMENSIONS WF1r14T
n. mm
A
in. mm
B
n. mm
C
in. mm
D
in. mm
in. mm
n. mm
n. mm
G"
in. mm
lbs. kqs
3 /a
20
12 5 ie
321
11 '/8
302
4
114
3%
92
n/a
n/a
4be
105
3
89
1 /e
41
15.0
6.8
1
25
13 1 /3
339
12 1 /4
311
4 1 /2
114
4
102
n/a
n/a
4 1 A
105
3' /8
98
1 %
41
1 16.5
7.5
1Y2
40
18
457
16
422
6
152
5 1 /4
133
n/a
I n/a
1 5
127
4 5 /a
1 118
2 5 /e
67
1 38.0
17.2
2
50
19
463
17 1 /4
438
6
152
5
149
n/a
n/a
5
127
5Ya
133
2 /e
67
41.0
18.6
•G Dimension are based on standard vertical flow in / vertical flow out configuration.
Note: All dimensions are approximate. Allowances must be made for normal manufacturing tolerances.
Series 825YA / Horizontal Flow In - Vertical Down Flow Out
Legend:
A Overall lay length, outside dimension
B Centerline of inlet shutoff to centerline of outlet shutoff
C Centerline of assemble to top
D End of inlet shutoff to centerline of assembly
E Centerline of assembly to outside of relief valve
F Bottom of relief port to end of inlet shutoff
G Centerline of assembly to outside of flange
E
4
G
Dimensions — Weights
Size: 3 /4" - 2" (20 - 50mm)
in. mm
A
in. mm
B
in. mm
C
in. mm
D
in. mm
D1
in. mm
E
in. mm
F
in. mm
G*
in. mm
lbs.
k s
3 /4
20
12
327
12
308
4 1 /2
114
3
92
n/a
n/a
4
105
3 1 /2
89
1%
41
15.0
6.8
1
25
13
340
12 1 /2
318
4 1 /2
114
4
102
n/a
n/a
4
105
3
98
1
41
16.5
7.5
1%2
40
18
467
17
432
6
152
5
133
n/a
n/a
5
127
4 5 /8
118
2
67
38.0
17.2
2
50
19
492
17%
448
6
152
5 7 /8
149
n/a
n/a
5
127
51/4
133
2 5 /8
67
41.0
16.6
*G Dimension are based on standard vertical flow in / vertical flow out configuration.
Note: All dimensions are approximate. Allowances must be made for normal manufacturing tolerances.
Series 825YA / Horizontal
Legend:
A Overall lay length, outside dimension
C Centerline of assemble to top
E Centerline of assembly to outside of relief valve
G Centerline of assembly to outside of flange
Dimensions — Weights
Size: 3 /4" - 2" (20 - 50mm)
SIZE (DN) DIMENSIONS WFIrRT
in. I mm
A
in. I mm
B
in. I mm
C
in. mm
D
in. mm
DI
in. mm
E
in mm
F
in. I mm
6*
in. mm
lbs. I k s
3 /4
20
15 1 /2
394
n/a
n/a
02
114
n/a
n/a
n/a
n/a
4 1 A
105
n/a
n/a
I 1
41
15.0
6.8
1
25
16 1 /4
413
n/a
n/a
4 1 /2
114
n/a
n/a
n/a
n/a
4 1 /5
105
n/a
n/a
1%
41
16.5
7.5
1%2
40
22
559
n/a
n/a
6
152
n/a
n/a
n/a
n/a
5
127
n/a
nia
2
67
38.0
17.2
2
50
23
594
n/a
n/a
6
152
n/a
n/a
nla
n/a
5
127
n/a
n/a
2 5 /B
1 67
1 41.0
18.6
*G Dimension are based on standard vertical flow in / vertical flow out configuration.
Note: All dimensions are approximate. Allowances must be made for normal manufacturing tolerances.
Typical Installation
The FEBCO Series 825YA provides versatility in installation because it can
be installed in any of four configurations. The most typical configuration
is shown in the vertical up flow in /vertical down flow out diagram. This
provides for an extremely short lay length which is advantageous in areas
of limited space for installation within a protected enclosure. Cost savings
can be realized due to the reduction in materials needed such as nipples,
elbows, unions, and size of the enclosure. With the integral flanged union
connections, the assembly can be removed from the line for freeze protec-
tion without a spool substitution. It is not recommended that any backf low
prevention assembly be removed from the line for maintenance unless
assurance can be made that a spool cross - connection cannot be substitut-
ed. The flanged union connection mounted at 45 degrees will provide this
assurance. The FEBCO Series 825YA is shipped in the configuration shown
in the vertical up flow /vertical down flow out diagram, but can easily be
modified to the three other configurations (shown on inside of this specifi-
cation sheet) simply by removing the bolts to rotate the end adapters.
With any configuration, material and labor savings can be achieved. The
FEBCO Series 825YA is the only Reduced Pressure Zone Assembly which
provides these options in a compact, integral assembly. All internal com-
ponents are interchangeable with the FEBCO Series 825Y providing the
same ease of maintenance and reliable operation.
Reduced Pressure Zone Assemblies should be installed with a minimum
clearance of 12" (300mm) between port and floor or grade. They must be
installed where discharge will not be objectionable and can be positively
drained away. They should be installed where easily accessible for testing
and maintenance and must be protected from freezing. Thermal water
expansion and /or water hammer downstream of the backflow preventer
can cause excessive pressure. Excessive pressure situations should be
eliminated to avoid possible damage to the system and device.
FEBCD
Capacity
kPa psi 3 /4" (20mm)
138 20
103 15
69 10
5 0 5 10 15 20 25 3 0 (gpm)
0 19 38 57 76 95 114 (Ipm)
5 7.5 10 15 (fps)
1.5 2.3 3.1 4.6 (mps)
kPa
psi
1" (25mm)
138
20
103
15
69
10
34
5
0
10 20 30 40
50 60 (gpm)
0
38 76 114 276
345 414 (Ipm)
5 7.5 10 15
20 (fps)
1.5 2.3 3.1 4.6
6.1 imps)
kPa psi 1 (40mm)
138 20
103 15
ss 19
34 5 0 20 40 60 80 100 120(gpm)
0 138 276 414 552 689 827 (1pm)
5 7.5 10 15 (fps)
1.5 2.3 3.1 4.6 (mps(
kPa psi 2" (50mm)
138 20
103 15
69 10
34 50 40 80 120 160 200 240 (gpm)
0 276 552 827 1103 1379 1655 (1pm)
5 7.5 ID 15 (fps)
1.5 2.3 3.1 4.6 (mps)
• sool
CERTIFIED
A Division of Watts Water Technologies, Inc. USA: 4381 N. Brawley • Ste. 102 • Fresno, CA • 93722 • Tel. (559) 441 -5300 • Fax: (559) 441 -5301 • www.FEBCOonline.com
Canada: 5435 North Service Rd. • Burlington, ONT • L7L 5117 • Tel. (905) 332 -4090 • Fax: (905) 332 -7068 • www.FEBCOonline.ca
ES -F -825YA 0652 0 FEBCO, 2007
Side view of assembly in
vertical in/ outflow configuration
ES REPORT TM
ESR -1031
Reissued June 1, 2006
This report is subject to re- examination in one year.
ICC Evaluation Service, Inc. I Business/Regional Office ■ 5360 Workman Mill Road Whinier, California 90601 ■ (562) 699-0543
Regional Office ■ 900 Montclair Road, Suite A, Birmingham, Alabama 35213 ■ (205) 599 -9800
www.ICC eS.org Regional'Office ■ 4051 West Flossmoor Road, Country Club Hills, Illinois 60478 ■ (708) 799 -2305
DIVISION: 15— MECHANICAL
Section: 15190 —Fuel Piping
REPORT HOLDER:
TITEFLEX CORPORATION /GASTITE DIVISION
603 HENDEE STREET
SPRINGFIELD, MASSACHUSETTS 01139 -0054
www.gastite.com
EVALUATION SUBJECT:
GASTITE FLEXIBLE GAS PIPING SYSTEM
1.0 EVALUATION SCOPE
Compliance with the following codes:
■ 2003 Intemationa/ Fuel Gas Code (IFGC)
■ 2003 Intemational Mechanical Code (IMC)
■ 2003 Intemationa/ Residential Code (IRC)
■ 1997 ICBO Uniform Mechanical Code (ICBO UMC)
■ 2003 IAPMO Uniform Mechanical Code* ( IAPMO UMC)
■ 2003 IAPMO Uniform Plumbing Code* ( IAPMO UPC)
Property evaluated:
Gas piping
2.0 USES
The Gastite Flexible Gas Piping System is a fuel -gas piping
system for natural or propane gas, intended for installation
with fuel gas pressures not exceeding 5 psi (34 kPa); the
system is installed in interior locations, and in exterior
locations as permitted in IFGC Chapter 4, IMC Section
602.2.1, IRC Chapter 24, ICBO UMC Chapter 13, IAPMO
UMC Section 602.2 and IAPMO UPC Chapter 12.
3.0 DESCRIPTION
The system consists of corrugated stainless steel tubes
(CSST) and mechanical all -metal components designed for
use only with the Gastite CSST, The CSST is composed of
concentric, annular rings of Type 304 or 321 stainless steel
with an international - yellow fuel - gas - colored polyethylene
coating. The product is available in nominal 3 /e - ,' /z - ,' /; , 1 - ,
1'1 -, 1 and 2- inch - diameter (9.5, 12.7, 19.1, 25.4, 31.8,
38.1 and 50.8 mm) sizes, identified as part numbers S93-
6A4, S93 -8A4, S93 -1164, S93 -16A4, S93 -20A4, S93 -24A4
and S93 -32A4, respectively, for Type 304 material; Type 321
material is identified as part numbers S93 -6A, S93 -8A, S93-
11 B, S93 -16A, S93 -20A, S93 -24A and S93 -32A, respectively.
Components utilize a metal -to -metal seal, and include
mechanical fittings, distribution manifolds, shutoff valves,
termination outlet devices, pressure regulators and protection
devices.
4.0 INSTALLATION
Installation shall be in accordance with the " Gastite Design
and Installation Guide" dated November 2002; NFPA 54; and
IFGC Chapter 4, IRC Chapter 24, ICBO UMC Chapter 13,
IAPMO UMC Chapter 6 and IAPMO UPC Chapter 12, as
applicable. The system installation consists of CSST
distribution lines installed between the gas meter and fuel gas
appliances. CSST not in contact with the ground, but exposed
to the outdoors, shall be installed in accordance with IFGC
Section 404.7, IRC Section G2145.7, ICBO UMC Section
1312.4, or IAPMO UPC Chapter 12, as applicable.
Distribution lines shall be protected from physical damage at
points of support and when passing through . structural
members such as studs, joists and plates by the installation
of approved premanufactured mechanical devices such as
striker plates and oversized strip -wound metal conduit. In
areas enforcing the IFGC or IRC, installation of the tubing is
not permitted within ducts. In areas enforcing the ICBO UMC
or the IAPMO UMC, installation of the tubing is not permitted
within under -floor space that is used as an air supply plenum.
The CSST shall be sized in accordance with capacity tables
in the manufacturer's published installation instructions.
The system is used with supply pressures not exceeding 5
psi (34.5 kPa), and for low pressure [below '/, psi (3.4 kPa)]
and medium pressure [2 psi (13.8 kPa)] equipment
applications. Low pressure applications with system supply
pressures below '/ psi (3.4 kPa) do not require a line
regulator. System supply pressures exceeding '/ psi (3.4
kPa) but less than 2 psi (13.8 kPa) utilize a line regulator to
limit downstream appliance utilization pressure to 1 / 2 psi (3.4
kPa). System supply pressures that exceed 2 psi (13.8 kPa)
but do not exceed 5 psi (34 kPa) require a line regulator to
limit downstream appliance utilization pressure to 1 / 2 psi (3.4
kPa), and an additional over - pressure protection device,
installed between the line regulator and the appliance, to limit
pressure to 2 psi (13.8 kPa). Medium pressure equipment
applications with 2 psi (13.8 kPa) and greater supply
pressures require a line regulator to limit downstream
appliance utilization pressure to 2 psi (13.8 kPa). At supply
pressures in excess of 2 psi (13.8 kPa), downstream
appliance controls rated forthe supply pressure, orprotection
by some other means, is needed.
Installation is performed byTiteflex Corporation trained and
certified installers using Titeflex's published installation
procedures.
5.0 CONDITIONS OF USE
The Gastite Flexible Gas Piping System described in this
report complies with, or is a suitable alternative to what is
specified in, those codes listed in Section 1.0 of this report,
subject to the following conditions:
5.1 Installation complies with this report, the manufacturer's
published installation instructions and the applicable
REPORTS are nol to be construed as representing aesthetics or am other attributes nor speclficallp addressed, nor are Ihe) to be construed as an
endorsement of the subject of the report or a recommendation for its use. There is no marranlr by JCC Evaluation Sender, hic., express or implied, as to anv
finding or other matter in this report, or as to any product covered ht' the report. \\
r�.eeuaoe.ma.n
rnoou.Trs�anx
Copyright 0 2006 Page 1 of 2
age 2 of 2
ESR -1031
code. If there is a conflict between the installation
instructions and this report, this report shall govern.
The product shall be used only with natural gas and
propane at operating pressures not exceeding 5 psi (34
kPa). Pressure regulators are required when fuel supply
pressures exceed 1 /2 psi (3.4 kPa).
5.3 The system shall be pressure- tested after installation in
accordance with the applicable code.
5.4 The system is manufactured in Springfield,
Massachusetts, under a quality control program with
inspections by CSA International (AA -659).
6.0 EVIDENCE SUBMITTED
6.1 Gastite Design and Installation Guide, dated November
2002.
6.2 Data in accordance with the ICC -ES Acceptance
Criteria for Corrugated Stainless Steel Interior Fuel -Gas
Piping Systems (AC99), dated January 2002.
6.3 A quality control manual.
7.0 IDENTIFICATION
Tubing: Each 2 feet (610 mm) of tube bears the Gastite
name, part number, rated pressure [5 psi (34 kPa)], equivalent
hydraulic diameter (EHD), the words "Fuel Gas," the evaluation
report number (ESR -1031) and the logo of the inspection
agency (CSA International).
Components: Fittings, termination outlets and distribution
manifolds are stamped with the Titeflex logo; the logo of the
inspection agency (CSA International); the part numbers and
the date stamp.
' IAPMO Uniform Plumbing Code and IAPMO Uniform Mechanical Code are copyrighted publications of the International Association of Plumbing
and Mechanical Officials, 5001 East Philadelphia Street, Ontario, California 91761.
(11/1/2007) Todd Oppenheimer - RE: Seibert Circle backflow device Page
From: "Fred Haslee" <fhaslee @erwsd.org>
To: "Todd Oppenheimer" <TOppenheimer @vailgov.com>
Date: 11/1/2007 4:42 PM
Subject: RE: Seibert Circle backflow device
CC: "Customer Service Group" <custservice @erwsd.org >, "John Friestad" <jfrie....
Todd,
This installation is approved. The District would like to make an
inspection of the installation. Please contact Jon Friestad for the
inspection through Custom Service. The phone number is 476 -7480.
Fred S. Haslee
Regulations Administrator
Eagle River Water & Sanitation District
(970) 476 -7480 Offices
(970) 476 -4089 Fax
(970) 477 -5449 Direct Line
(970) 471 -2807 Cell
- - - -- Original Message - - --
From: Todd Oppenheimer [ mailto :TOppenheimer @vailgov.com]
Sent: Thursday, November 01, 2007 9:29 AM
To: Fred Haslee
Subject: RE: Seibert Circle backflow device
Fred,
Thanks for responding so quickly. The backflow device is located
downstream from the meter /PRV assembly. The site plan sent with the
previous email shows the 1" service line, curb stop, meter /PRV assembly,
then the backflow device. The line returns to the vault where it is
connected to our make -up water valve.
Todd
>>> "Fred Haslee" <fhaslee @erwsd.org> 11/1/2007 9:20 AM >>>
Todd,
I am assuming that the proposed location, of the backflow device in
downstream of the PRV and meter. If that is the case then your design
submittal may be acceptable. We will not allow this fountain to
discharge in to the sanitary sewer. Ground water and surface runoff
are
prohibited from being discharged into the sanitary sewer system.
Please
confirm the location of the RP device in the meter assembly and we may
approve this installation.
Fred S. Haslee
Regulations Administrator
Eagle River Water & Sanitation District
(970) 476 -7480 Offices
(970) 476 -4089 Fax
(970) 477 -5449 Direct Line
(970) 471 -2807 Cell
- - - -- Original Message---- -
From: Todd Oppenheimer [ mailto :TOppenheimer @vailgov.com]
_007) Todd Oppenheimer - RE: Seibert Circle backflow device Page 2
Sent: Wednesday, October 31, 2007 1:21 PM
To: Fred Haslee
Subject: Seibert Circle backflow device
Fred,
Thanks for your time yesterday to discuss the Seibert Circle project.
I am attaching 2 pdf documents which outline the backflow device
installation as we discussed. I would appreciate it if you could
review
the documents and email me back your acceptance or denial along with
what corrections need to be made. Once I hear back I can include the
documents and email in my resubmittal to the Building Department.
At one time we also discussed discharging the waste water from the
fountain system into the storm sewer. You expressed that was your
preference over discharge into the sanitary sewer. Could you state
that
in the same email so I can provide the Building Department with the
necessary documentation?
Thanks again for your help on this project. Please feel free to call
me
at 390 -4768 if you have any questions.
Todd Oppenheimer, ASLA
Town of Vail
TOW
Department of Community Development
Building Safety and Inspection Services
75 South Frontage Road
Vail, Colorado 81657
970 - 479 -2138
FAX 970 - 479 -2452
www.vallgov.com
BUILDING SAFETY AND INSPECTION SERVICES PLAN REVIEW COMMENTS:
TO: Contractor /Applicant En ineer
R &H Mechanical AEC
Joel Stuart proj #27828
FAX /Email #: joels @randhmechanical.com stan @aec- vail.com
NUMBER OF PAGES:
FROM:
DATE:
MECHANICAL PERMIT #:
OWNERS NAME:
SITE ADDRESS:
OCCUPANCY GROUP:
TYPE OF CONSTRUCTION:
NUMBER OF STORIES:
BUILDING AREA:
2
Chris Gunion, Building Plans Examiner
08/22/2007
M07 -0164
Town of Vail
none (Seibert Circle)
The documents submitted for this project have been reviewed for compliance with the 2003
International Building Code, 2003 International Residential Code, 2003 International Mechanical
Code, 2003 International Fuel Gas Code, 2003 International Plumbing Code, 2003 International
Energy Conservation Code and 2005 National Electrical Code as modified and adopted by the Town of
Vail.
The following comments will need to be addressed prior to issuance of a building permit.
For processing:
• Please submit four complete sets of revised construct documents containina the reauested
information with all plan revision items clouded or othe rwise identified. Partial plan sets or loose
Ian sheets are not accepted.
• Please respond in writing to each comment by marking the attached list or creating a response
letter. Indicate which plan sheet, detail, specification, or calculation shows the requested
information. Please send revisions to the attention of the plans examiner with the building
permit application number noted.
Please be sure to include on the resubmittal the engineer's or architect's "wet" stamp signature
registration number and date on the cover page of any structural calculations all structural
details and structural sheets of the plans. For commercial or multi - family projects all sheets of
the plans must be stamped.
1 Plan review is based on limited information submitted for review with the mechanical permit
application (sheets M1.0 and M2.0). Please include complete plans and permit applications for
review. All plan submittals must be stamped and signed by a Colorado State registered design
professional.
Building Comments:
2 Please include a complete plan submittal package for the proposed fountain. Include a complete site
plan, architectural drawings, structural construction details, complete specifications and mechanical,
electrical and plumbing plans in a submittal package.
3 Include plans to clarify what is proposed for the construction of the mechanical vaults and fountain
structure. A building permit may be required for the structural work.
4 Show proposed depth of any proposed wading pools associated with the proposed fountain. If pool
depth exceeds 24 ", compliance with IBC section 3109 is required.
Mechanical/ Plumbing Comments:
5 Show water supply, backflow protection at potable water supply connection and all water circulation
piping for the proposed fountain. IPC ch. 6
6 Show any proposed drain and waste water piping. IPC ch. 7
7 Revise plans to provide complete information, specifications, listing and testing approvals for fuel
burning devices proposed to be connected to the gas piping shown on sheet M2.0. IFGC 301
8 Show access and service space for all equipment per IFGC 306 and IMC 306
9 Provide proposed connected CFH for verification of gas pipe sizing. IFGC 402
10 Show gas piping shut -off locations. IFGC 409
11 Show compliance with IFGC section 410.1, 410.2 and 410.3 for MP gas regulators.
12 Provide gas piping material specifications for underground, concealed and above ground piping.
Include gas pipe sleeve details per IFGC 404.4 where applicable.
Electrical Comments:
13 Include complete electrical plans stamped and signed by a Colorado State Licensed Engineer.
Please refer to the cover sheet for information on resubmitting plans. In order to avoid delays in issuance of
a permit, please check all requested information is included with the resubmitted plans. Please submit
revised plans as a complete set. Partial plan resubmittals will not be reviewed.
F: \cdev \CHRIS \PERMIT.COMM ENTS \M07 - 0169 \MO7 -0169. DOC
Prodjjlit
Pagel of 2
Honeywe
4 Noneyaueli.coni i Homeowner's :Link
HOME ABOUT US PRODUCTS NEWS & EVENTS SUPPORT & RESOURCES CONTACT US HELP VIEW QUOTE
Product Search Buildings Homes Applications & Downloads Cross Reference Product Selection Tool
• Commercial Zone Dampers
• Damper and Valve Actuators
• Hydronic Control Valves
• Rectangular Dampers
• Variable Frequency Drives
I Ouick Ll.ri ,s
• Tradeline Catalog Printed
Version (114 MB)
• Tradeline Catalog CD -ROM
version (50 MB)
'� Lcac�sc�rs
• ACI Contractor
• Residential Contractor
• Distributor
• Locate Distributors • Product Specifications • Literature and Documents
Overview
24 Vdc microprocessor -based integrated
burner control for automatically fired gas, oil
or combination fuel single burner
applications. Provides level of safety,
functional capability and features beyond
the capacity of conventional controls.
Features
• For use with R7824C Amplifier with C7024E,F Flame Detectors and R7848A,B
with C7015A Flame Detectors.
• Functions include automatic burner sequencing, flame supervision, system status
indication system or self diagnostics and troubleshooting.
• Five LEDs provide sequence information.
• Selectable recycle or lockout on loss of flame.
• Shutter drive output for use with dynamic self -check flame detectors.
• Access for external electrical voltage checks.
• Plug -in flame amplifier.
• Nonvolatile memory retains history files and lockout status after loss of power
Required Components
07800A,B Universal Wiring Subbases. R7824 or
R7848 Flame Signal Amplifier.
Voltage
24 Vdc ( +10, - 15
Pilot Type
intermittent
Vibration
0.5 G environment
Ambient Temperature
-40 F to +140 F
Range (F)
Ambient Temperature
-40 C to 4-80 C
Range; (C)
Dimensions (in)
5 in, wide x 5 in. high x 5 1/4 in. deep with Q7800A
Subbase x G 3132 in. deep with Q7800B Subbase
Dimensions (mm)
127 mm wide x 127 mm high x 133 mm deep with
Q7800A Subbase x 155 mm deep with Q7800B
Subbase
Product Specifications 4 Back To Top
Application Primary Control 24vdc
Flame Establishing Period 4 sec or 10 sec
- Pilot
Flame Establishing Period Intermittent
- Main
Login is not allowed
at this time.
- Find Quote
Product Search
Cross Reference Search
Search
4 Advanced Search
Literature / image Search
I AII Literature
Model / Part Numbe
http: // customer. honeywell. com/ honeywell /Productlnfo.aspx/RM7824A1006 11/2/2007
w n..n�N�ui.r,7aw ivuGroprocessor Kelay Modules > RM7824
Welcome
RM7824A1006
Primary Control -24Vdc
Prod2lgt
Weight (lb)
Weight (kg)
Approvals, Underwriters
Laboratories Inc
Approvals, Canadian
Standards Association
Approvals, Federal
Communications
Commission
Approvals, Industrial Risk
Insurers
1lb13oz
0.8 kg
Component Recognized, File No. MP268, Guide
No. MCCI.
Certified. File No. l_R95329 -3.
FCC Part 15, Class B, Emissions.
IRI Acceptable
Page 2 of 2
Approvals, Factory Mutual Report No. J.I.OX4A5.AF.
Dimensional Diagram M5872.gif
Literature and other Resources 4 Back To Top
Download
Relay Module -7800 SERIES(Product Data - PDF)
Relay Module —7800 Series (Specification Data - PDF)
Download 0
Terms & Conditions I Privacy Statement I Site Map I Advanced
Search
Choose Your Region /Country I United States English
v1.0.2858
0 Copyright Honeywell International Inc 2004 -2007
http: // customer. honeywell. com/ honeywell /Productlnfo.aspx /RM7824AI 006 11 /.
► •. 1309 Elkhorn Drive
Vail, Colorado 81657
970 -479 -2158
*VE rry�T�ll►r Fax. 970 -479 -2166
1 U 11'1 www.vailgov.com
Department of Puhhc Works & Transportation
MEMORANDUM
To: Joe Suther, Community Development
From: Todd Oppenheimer, Public Works
Date: September 12, 2007
RE: Seibert Circle — Mechanical permit information.
Joe,
Please find the attached cut sheets for the natural gas components of the Seibert Circle
feature. This is supplemental information to the plans submitted by R &H Mechanical
with the mechanical permit application. I believe this information covers all the
equipment required to complete the installation. Plese call me at 390 -4678 if you have
any questions. I
Thanks
Todd Oppenheimer
FIELD
COPY
I SEP 12 2001
TOWN O- F-V-A- L -
Mop • 61&q
0 RECYCLED PAPER
2 -Way Zero Differential Pilot Operated
Dia hr P
p agIn Solenoid valves (1 to 2 FF)
2271 0 ormally Closed
S272 • Normally Open
S27 series 2- waypiloted diaphragm solenoid valves ar
capable of operating at zero differentiall pressure. They can
be applied over an operating pressure range from o psi to
125 psi. S27 series valves are offered in a wide variety of
diaphragm and body materials to provide on -off control of
various fluids. For special applications, contact your GC
Valves customer service representative.
Specifications
Operating Mode Normally Closed
Open when energized, closed when de- energized.
Normally Open
Closed when energized, open when de- energized.
Pipe Size
1 • 1'/4-1 'th , 2
Orifice Size
1 • 1'/4
v , Bod
Forged Brass, 304 Stainless Steel, Bronze
C4 Sealing /Seat
Buna N, Viton, Ethylene Propylene
Housing Standard
Conduit (NEMA1)
Options
Watertight NEMA IV, Terminal
AC24V 6OHz - DC 72V
Available Voltages
A0110V 50Hz AC 120V 6OHz
AC220V 50Hz AC240V 6OHz DC 24V
Voltage Tolerance
+10 to -15% of applicable voltage
Coil
Class F and H
Lead Length
18 Inch
Temperature Ratings
Mounting position
Agency Listings
Options
Yiai,ual vvernoe, Neon Lamp, Surge Suppressor
*Consult the factory for specifications other than those listed above.
Ambient Temp. -40OF to 150 °F max. with Class F Coil; 175 °F max. with Class H Coil.
Fluid Temp. See the "HOW TO ORDER" Table.
Solenoid vertical and upright direction.
0— o-Unsult Tactory for further details.)
S27 Series
o
N
Operating Pressure Differential {PSI)
Pawer
C0
o
Max.
�
Consumption
�' {W?
Voyage
{V) Model Code
o
p
`
U' Air, Gas Water Light Oil Steam
Coil
1Hz
NPT
IN
AC DC AC DC AC DC AC
,�
of
_°
AC DC
60 { Brass Bod Stainless Steel
Bronze for NPT 2 ")
Body
Normally Closed , o
m 7-
IN
N
IN
I
1 1 13 0 125 125 100 100 70 70 = 1801 A 17.'5' 22.5 F 120 S271AF02N5FG9 5271AF02L7FG9
1 13 0 — — 100 50 — — — 210 A 17.5 22.5 F 120 S271AF02C5FG9 S271AF02E7FG9
1114 1 19 0 125 125 50 50 70 70 180 A 175 22.5 F 120 S271AF02N5GJ2
1y4 19 0 — — 50 50 — — S271AF02L7GJ2
210 A 17.5 22.5 F 120 S271AF02C5GJ2 S271AF02E7GJ2
1112 1 25 0 125 125 50 ' 50 70 70 180 A 17.5 22.5 F 120 5271 AF02N5HJ2
1 25 D — S271AF02L7HJ2
50 50 — — — 210 A 17.5 22.5 F 120 S271AF02C5HJ2 S271AF02E7HJ2
2 1 28 0 125 125 5D 50 70 70 — 180 A 17.5 22.5 F 120 S271 AF02N5JJ2
1 28 0 — — 50 50 — —
210 A 175 22.5 F 120 S271AF02C5JJ2
Normally Open , ! i.,
L—L IDm IN IN
IN
7 _
1 13 0 125 — 125 — ` 70 — 180 A- 18.5 - F 120 S272AF02N5FG9
1 1 13 0 — S272AF02L7FG9
lOD — — — — 210 A 18.5 — F 120 S272AF02C5FG9
1 13 0 — — — S272AF02E7FG9
50 295 A 18.5 — H 120 S272AH02C5FG9 S272AH02E7FG9
1 18 0 125 — 125 — 70 — — 180 A 18.5 —
`F 120 S272AF02N5GJ7 S272AF02L7GJ2
1 1 1 /4 18 0 — — 100 — — — — 210 A 18.5 — F 120 S272AF02C5GJ2
— — — — S272AF02E7GJ2
1 18 0
50 295 A 18.5 — H 120 S272AH02C5GJ2 S272AH02E7GJ2
1 . 23 0 125 — 125 — 70 - = 180 A 18:5 —' 'F
120 ` S272AF02N5HJ2 5272AF02L7HJ2
1 1 23 0 — i — 100 — — — — 210 A 18.5 — F 120 S272AF02C5HJ2
11/4 23 0 — — — — S272AF02E7HJ2
— 50 295 A 18.5 — H 120 S272AH02C5HJ2 S272AH02E7HJ2
1 27 0 125 — 125 — 70 — — 180 A 18.5 —
f 120 S272AF02N5JJ2
2 1 27 0 — — 100 — — — — 210 A 18.5 — F 120 S272AF02C5JJ2
1 27 0 — — — — — — 50 295 A 18.5 — H 120 I 3272AH02C5JJ2
Indication above shows the standard products.
Valve Selection List
L Model Code
1 2 3 4 5 6 7 8 9 10 11 12 13 14
[ �� _ L2 7 1 A F 0 2 N 5 F G 9
1 •2.3
4
5
6
7.8
9.10
11.12.13
14
Series
Operating
Mode
Housing
Coil
insulation
Applicable
Voltage
Material (Seat, Body)
P �
Option
27
22
28
22
Power
Consump-
tion (W)
AC
DC
Orifice Size
18.5
—
S27
1: Normally
Closed
A: Conduit
F: Class , F
02
N5 Buna N,''Brass (Note 2)
FG9 =.1" (1) -
_____________
--
2: Normally
W: Water-
tight
H: Class H
60 Hz
04 =AC 220V
V5: Viton, Brass (Note 2)
GJ2 =1 t /;' (1 �J.}
; Neon
Open,
NEMA IV
50 Hz
C5: Ethylene Propylene,
HJ2 = 1 (1 %)
Lamp
AC 240V
Brass (Note 2)
2 = 2' (1' /.)
with Surge ;
(Suppressor},
_
60 Hz
,17 Buna N,
01 =AC 24V
Stainless Steel 304
Z Surge
60 Hz
15=12V DC
L7: VRon,
Suppressor:
16=24V DC
Stainless Steel 304
See the
E7: Ethylene Propylene,
N and Z apply
"Valve Selec-
Stainless Steel 304
to housing
lion Guide"
with terminal
for other
only.
voltages. _
MM... 1 ED Ind'
Ica on a ve shows the standard products.
2 Standard 2" valves are bronze bodies.
FlColl Data
Model
S201
$202
frequency (Hz)
50
60
50
60
Power
Inrush
150
130
160
130
(VA)
Holding
27
22
28
22
Power
Consump-
tion (W)
AC
DC
17.5
22.5
18.5
—
Construction /Operation
.. j
Normally Cl osed
• De- energized • Energized
Note: AC power consumption at 11OV /5o Hz,
12nV/60 Hz data.
Normally Open
External Dimensions
(Conduit coil housing)
IN
Pipe Connection
units: inch
(NPT)
A
B
C
D
E
F
G
Weight
(LB)
1
1
7.44
6.57
3.90
0.83
3.62
1.97
3.23
5.1
11h
8.15
7.28
4.25
1.18
4.33
1.97
3,62
6.7
2
8.66
7.80
4.41
1.54
9.1
5.51
1.97
3.62
U& valves Toil Free 1- 800 -582-
4232
wnm�
Western Region Eastern Region
4525 E. Industrial Street 456 Crompton St.
Unit 4C G C P.O. Box 7066
Slml Valley, CA 93063 Charlotte, NC 28241
Phone 805 - 5$2.0065 VALV Phone 7 04 -588 -3300
Fax 805 -58i! -0210 Fax 704 -588 -5831
DISTRIBUTOR:
J
J
G
c.
For larger igniters and smaller main burners, the
patented Skotch Trifecta T4000C series cast -body
valve system is a safe, cost - effective, reliable alter-
native to the multiple valves and manifolds found in
fuel gas systems.
Used in applications where double block and vent is
required, the T4000C combines the functions of
two independent block valves with a normally open
vent valve in a single, compact unit making it ideal
for boilers, furnaces, and process heating equip-
ment firing natural gas, propane, or other fuel gas.
The unique design includes three ports: inlet, out-
let, and vent. The cast steel body contains two valve
plugs — an inlet and outlet block. The chamber
between is open to vent through the hollow inlet
stem.
Flow to close inlet and outlet blocks are sized for
full flow to minimize pressure loss; increasing inlet
pressure forces the blocks tighter on their seats.
Soft seals with over - travel and metal -to -metal back
up seats assure positive ANSVFCI 70 -2 Class VI clo-
sure. Proof -of closure (POC) switch is standard.
T41 00C (1 ")
12
Advantages of using the T4000C valve system vs.
conventional multiple valve and manifold setups
include:
Compact for easier installation
Less maintenance and lower cost of ownership
Available Factory Mutual (FM) approved configu-
rations (fail closed only)
No out -of- sequence operation
Can be installed in any orientation
Because the T4000C valves operate using a single
actuator, problems such as out -of- sequence opera-
tion, jamming, and maladjustment of linkage drive
systems are eliminated.
818- 301 -6110 WET Design — Design Ga 15:04:14 08 -27 -2007 38!46
T41 50C (1.5 ")
Shown with optional Proof
of Open switch and external
limit switch option
818- 301 -6110 WET Design — Design Ga 15:04:56 08 -27 -2007 39!46
C
a
4
Skotch Trifecta
T4000C
Flog Capacity for the T4100C
The following chart depicts the relationship
between flow (SCFH) and.pressure drop (PSI) for the
T4100C Skotch Trifecta valve system. Data is given
at various inlet pressures (PSIG). Follow known flow
up the chart until you intersect the known operat-
ing pressure. Where the two lines intersect, look to
the left for the calculated pressure drop.
T4100C example: With 10,000 SCFH flow operating
at 15 PSI the calculated pressure drop will be 3.3
PS I.
Calculations are based on natural gas at 0.65 spe-
cific gravity, at 60° F.
/ Inlet Pressure
4 i
s
CL 2
a
R
� 1
:1 0:7
os
d D.4
b3
0.2
0.f -
2000 low simo 7,000 10jra :O,00o
Flow [SCFM
Specifications for the T4100C
Design Pressure and Temperature:
Max operating pressure: 50 PSIG
Temperature rating: -20 to 1507
Shutoff Classification:
All ports soft seated with metal to metal backup
New valve: meets or exceeds ANSVFCI 70 -2
Class VI
Durability: meets or exceeds FM 7400 standard
for Safety Shutoff Valves (SSOV)
Cv Rating: 14
Inlet/Outlet Size: 1" Sch. 40 (Sch. 80 optional)
End Connections:
Inlet/Outlet: Sch, 40 or 80 Spigot; Butt Weld;
ANSI Class 150 Raised -Face Flange;
Male NPT in Sch. 80; Socketweld
Vent: ANSI B2.1 FNPT
Pneumatic Supply-
Clean, dry air at 60 to 120 PSIG
Flow Direction: Left to Right or Right to Left. Field
reversible
orientation: May be installed in any position.
Construction Materials:
Body: ANSI 816.34 compliant; cast carbon steel
per ASTM A216 Gr. WCB
C,
Flanges: ASTM A479 Type 304, ASTM Al 08 1018
Trim: ASTM Type 300 series stainless steels
Seals: Buna -N standard; Consult factory for
Viton options
Actuation:
Electropneumatic
T41 05C- Fail Last Position
T4106C- Fail Closed (Safe)
Solenoid Supply Voltages:
110 or 220 VAC, 50/60 Hz
12, 24, 48 and 125 VDC
Switch Rating:
Internal Switches - 7 Amps @ 120 VAC
External Switches - 10 Amps @ 125 VAC
Switch/Solenoid Electrical Ratings:
Location Classification
Standard: Nema 1, 3, 4, 13
Optional: Nema 7, 9 (Class 1 Div 2 Gr. B, C, D)
(External switches only)
Ingress Protection
Standard: Nema 4
Optional: Nema 4X (External switches only)
Weight:
Approximately 35 Ibs depending on options
selected
13
�
r
! /J����i�.iliti►�
�
818 - 301 -6110
WET Design– DesignGa
15:05:17 08 -27 -2007 40!46
t
f
T4000C
Skotch Trifecta
Dimensional
Specifications
for the T4IOOC
4.23
(107)
F— 4.19
(10b)
3,37
(86)
Pilot Solenoid
Pneumatic Supply
1/8" FNPT
6D -120 PSIG
C".
c
j j 1
Wiring + Conn T
b'on
j � I
Pneumatic Internal Switch
Actuator + 1/2" FNPT Wiring
Assembly — — E Connection
Visual Actuator/Yoke
Indicator 1 Mounting Surface
Actuator Tr_
Mounting
Set Screw
Typ 3 Places
I i
Valve I Valve 16.28 (414)
Tag Body y Height)
Assembly
11.06
EINLET ~ I OUTLET
ITT S TCH
I 1 5.40
(137)
VENT
` i 1
Vent
3/4" FNPT
12.00 (86) FM
(305) pp�
T4000C systems are covered under U.S. Patent No, 5,165,443 and other foreign patents. ' .gyp
Dimensions are inches (mm) FM Approved for valves which
fail in the dosed position and
Externally Mounted Limit Switch Option incorporate appropriate options.
Proof of Closure Switch Open Limit Switch Solenoid Piping Connection
P Solenoid Can Be Rotated
(optional) 1J2" FNPT � About Nipple Centerline
t ;
Pilot Solenoid
1/ --I .� _.� 6ne1 tic Supply
Conduit � +
Port 6.39 Clean Dry Air Port
(162.3)I. • Connection 118" NPT
9.96 _ta ..
18.96 (253.0)
Ove(ragl2Height Visual Indicator
Actuator
Mounting Set r
Screw 3X
3.21
(81,5)
Top of Actuator
14
818 - 301 -6110 WET Design — Design Ga
15:05:37 08 -27 -2007 41!46
J
Skotch Trifecta
T4000C
Flow Capacity for the T4150C and T4200C
The following chart depicts the relationship
between flow (SCFH) and pressure drop (PSI) forthe
T4150C and T4200C Trifecta valve systems. Data is
given at various inlet pressures (PSIG). Follow
known flow up the chart until you intersect the
known operating pressure. Where the two lines
intersect, look to the left for the calculated pressure
d rop.
T4150C example: With 20,000 SCFH flow operating
at 15 PSI the calculated pressure drop will be 1.2
PSI.
Calculations are based on natural gas at 0.65 spe-
cific gravity, at 60° F.
` T4150C Cv = 45
T4200C Cv = 7$
Inlet Pressure
I
Inlet Pressure
�
S�
1
4
I
a
�
Ch 1
0 1
0.J
I!
w 0.7
N 0.5
0.
0 =
0.
3.]
0:a
I
0.1
SX0 7.aW10.c00 MADD30A0 50AD0 10D.000
0,1
10000 201= 30.0 M f07.'L00 'sD�L00
FWW ISCF14]
M =O�.
Specifications for the T4150C and T4200C
Sizes & Weights:
Series Line Size Vent Size Weight*
T4150C 1.5" 3/4" 1111bs
T4200C 2.0" 1" 162lbs
* Approximate depending on options selected
End Connections:
Inlet/Outlet: Sch. 40 or 80 Spigot; Butt Weld;
ANSI Class 150 Raised -Face Flange;
Male NPT in Sch. 80; Socketweld
Vent: ANSI B2.1 FNPT
Design Pressure and Temperature:
Max. operating pressure: 60 PSIG
Operating temperature range: -20 ° F to 180 °F
Ambient Temperature Rating: 180 ° F Max.
(Consult factory for higher requirements)
Shutoff Classification
All ports soft seated with metal to metal backup
New valve: meets or exceeds ANSI /FCI 70 -2
Class VI
Durability: meets or exceeds FM 7400 standard
for safety Shutoff Valves (SSOV)
Construction Materials:
Body: ANSI B16.34 compliant; cast carbon steel
per ASTM A216 Gr. WCB
Flanges: ASTM A479 Type 304, ASTM A108 1018
Trim: ASTM Type 300 series stainless steels
Seals: Buna -N standard; Consult factory for
Viton options
Actuation:
T4xx5, - Fail in Last Position ,
T4xx -Fail Closed (safe)
Pneumatic Supply: 60 to 120 PSIG Clean, Dry Air
Solenoid Supply Voltages:
110 VAC, 220 VAC 50/60 Hz
12, 24, 48, 125 VDC
Switch /Solenoid Electrical Ratings:
Location Classification
Standard: Nema 1, 3, 4,13
Optional: Nema 7, 9 (Class 1 Div. 2 Gr. B,C,D)
Ingress Protection:
Standard: Nema 4
Optional: Nema 4X
Switch Rating: 10 Amps at 125 VAC
r
15
Optional: Nema 7, 9 (Class 1 Div. 2 Gr. B,C,D)
Ingress Protection:
Standard: Nema 4
Optional: Nema 4X
Switch Rating: 10 Amps at 125 VAC
r
15
15
i G 15:06:01 08 -27 -2007 42 !46
818- 301 -6110 WE Design - Desgn a
T4000C
Dimensional Specifications for the
T4150C and T4200C
C
[- 8.4 -
(214)
2.0" Disassembly
Clearance
Solenoid Wiring
i ` Connection
I 1R" FNPT
Pneumatic Actuator, ;!
Assembly
i Visual
Indication
Clear Yoke i Proof of Closure
Lens Cover
_ �� 1POC) Switch Overer
all
Switch Wiring Height
Actuator Mounting � 9
Surface Connection
An 1/2" FNPT
�;. Switch Wiring
!p� Connection
scrigo.� 1 +� f 'sq+ao__ 1J2" FNPT
LI;
111)" Overall
wai Optional Height
Valve Body Valve Tag Second
Assmebly POC d B .
Switch
Vent (FNPT) Optional Second
"D" POC switch
"C"
"
Skotch Trifecta
(145)
Pipe Run
Size
E 5.0
Dim "A"
pilot Solenoid
7)
Dim "D"
Pneumatic Supply
F (
T4150C Base
114" FNPT 60 -120
0.75" FNPT
31.8 (808)
f;I
- -PSIG
18.3 (465)
4.6 (117)
5.6 (142)
Solenoid
1.5"
0.75" FNPT
Exhaust
14.9 (378)
22.0 (559)
11
„f,b „ Muffler
4.6 (117)
7.2 (183)
T4200C Base
Pneumatic
1.0" FNPT
Actuator
10.1 (257)
Breathing
21.8 (554)
Vent
7,1 (180)
cation for
2.0"
tional Valve
39.0 (991)
en Switch
r
t
7.0" Disassembly
Clearance
Model
Pipe Run
Size
Vent
Connection
Dim "A"
Dim "B"
Dim "C"
Dim "D"
Dim "E" 0
Dim "F"
T4150C Base
1.5"
0.75" FNPT
31.8 (808)
9.8(249)
22.0 (559)
18.3 (465)
4.6 (117)
5.6 (142)
T4150C W 2nd PDC
1.5"
0.75" FNPT
36.9 937)
14.9 (378)
22.0 (559)
18.3 (465)
4.6 (117)
7.2 (183)
T4200C Base
2.0"
1.0" FNPT
33.5 (851)
10.1 (257)
23.4 (594)
21.8 (554)
5.4 (137)
7,1 (180)
T4200C w/ 2nd POC
2.0"
1.0" FNPT
39.0 (991)
15.5 (394)
23.4 (594)
21.8 (554)
5.4 (13 7)
8.3 (211)
*Dimensions are inches (mm)
T4000C systems are covered under U.S. Patent No. 5,165,443 and other foreign patents.
<S>
APED
FM Approved for valves which fail in the closed
position and incorporate appropriate options.
16
818- 301 -6110 WET Design — Design Ga
15:06:20 08 -27 -2007 43!46
Skotch Trifecta T4000C
Principles
Opening
of Operation
L ' 1. Energizing the actuator extends
its output shaft, forcing the valve's
outlet stem down to open the outlet
J block and compress the Actuator
spring.
2. As the system opens, a soft vent
seal on the bottom of the outlet plug
contacts a flat surface on the inside
of the inlet plug stem. The spring
energized vent seal is compressed
J until a metal to metal backup seat is
made. At this point the outlet is open
and the vent is fully closed. (Figure 2)
3. The valve continues to travel
through vent closure, driving the
inlet plug out of its seat and com-
pressing the inlet spring.
4. When the inlet plug's soft seal
clears the seat ring, both blocks are
open, the vent is closed, and gas
moves from the inlet port to the out-
let port. The valve stops at full open.
(Figure 3)
Closing
1. For valve shutoff, the actuator is
deenergized, causing the valve's two
independent return springs to close
the block valves. (Inlet block spring
and actuator return spring)
2. First, the inlet block closes, mak-
ing first a soft seal, halting the flow
of gas, and then over traveling to
make a metal to metal backup seal.
Next, the vent opens, relieving
down - stream pressure. Finally, the
outlet block closes, making a soft
seat and then over traveling to make
a metal to metal backup seat, isolat-
ing the vent from the burner.
3. With the inlet and outlet blocks
closed and the vent open, any poten-
tial leakage past the inlet valve
escapes to vent through the hollow
inlet stem. This positively ensures no
leakage into the burner. (Figure 1)
a
Inlet
Inlet
Inlet
Vent
Vent
Figure 3 - Open
Outlet
Outlet
Outlet
17 Vent
Figure 1 - Closed
Figure 2 - Intermediate