HomeMy WebLinkAbout5607 PALMER WAY; ; AS971856; Permit7/30/25, 9:09 AM
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Fees($)
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AS971856 Permit Data
City of Carlsbad
Sprinkler Permit
5607 PALMER WY
SPRINK
2090403900
0
FIRST MECHANICAL
Add'I Fees ($)
0
Permit No: AS971856
Status: ISSUED
Applied 5/20/1999
Approved:
Issued:
Inspector:
Owner:
LISTER RONALD C&COLLEEN M LIVING
3365 LAKE VIEW TER
ESCONDIDO CA
Total($)
558.25
Balance($)
0
1/1
City of Carlsbad 97199
Fire Department • Bureau of Prevention
Plan Review: Requirements Category: Automatic Sprinkler ~
Reviewed by:_~-U~--',,.L../_-__ Date of Report: Thursday, May 27, 1999
Contact Name Lifeguard Fire Prot
Address 2613 Temple Heights
City, State Oceanside CA 92056
Bldg. Dept. No. C B97-1856 Planning No.
Job Name First Mechanical
Job Address 5601 Palmer ~~~~---------------Ste. or Bldg. No. ____ _
~ Approved • The item you have submitted for review has been approved. The approval is
based on plans; information and/or specifications provided in your submittal;
therefore any changes to these items after this date, including field modifica-
tions, must be reviewed by this office to insure continued conformance with
applicable codes. Please review carefully all comments attached, as failure
to comply with instructions in this report can result in suspension of permit to
construct or install improvements.
D Disapproved -Please see the attached report of deficiencies. Please make corrections to
plans or specifications necessary to indicate compliance with applicable
codes and standards. Submit corrected plans and/or specifications to this
office for review.
For Fire Department Use Only
Review 1st. __ _ 2nd~--3rd __ _
Other Agency ID
CFD Job#_~9~71~9=9 __ File# ___ _
2560 Orlon Way • Carlsbad, California 92008 • (619) 931-2121
FIRST MECHANICAL
5606 PALMER WAY, CARLSBAD
MATERIAL DATA SUBMITTAL
5-17-99
LIFEGUARD FIRE PROTECTION, INC.
2613 TEMPLE HEIGHTS DR. SUITE B
OCEANSIDE, CA. 92056
EXTRA LARGE ORIFICE SPRINKLERS, STANDARD COVERAGE
UPRIGHT
MODEL F892 DESIGNER, K=11.4 (ELO}
GENERAL DESCRIPTION
The Model F892 Designer Extra Large
Orifice (ELO) Standard Coverage Up-
right Sprinklers (Ref. Figure A) are au-
tomatic sprinklers of the frangible bulb
type. They are "standard response •
extra large orifice spray sprinklers"
which produce a hemispherical water
distribution pattern below the deflec·
tor.
The F892 Sprinklers are intended for
use in fire sprinkler systems designed
in accordance with the standard instal-
lation rules recognized by the applica-
ble Listing or Approval agency (e.g.,
UL Listing is based on the require-
ments of the National Fire Protection
Association). Also, when acceptable to
the Authority Having Jurisdiction, they
may be used with a reduced design
area as indicated in the Design Criteria
section.
As part of the laboratory approval eval•
uation, the F892 Sprinklers were sub-
jected to an array of full scale, high-
piled storage, fire tests. Their
successful performance in these tests
have qualified the F892 Sprinklers to
be used in lieu of 1 /2 or 17 /32 inch ( 15
or 20mm) orifice standard spray
sprinklers for the protection of high•
piled storage.
The F892 Sprinklers have a discharge
rate that is approximately 60 percent
greater than that of 17/32 inch (20mm)
orifice sprinklers and approximately
100 percent greater than that of 1/2
inch (15mm) orifice sprinklers operat-
ing at the same pressure. Higher flow
rates, therefore, can be achieved at
much lower pressures with the F892
ELO Sprinklers -making their use
highly advantageous in high density
applications, such as the protection of
high-piled storage.
Reier to TD596 for information on the
11.4 K-factor Extended Coverage Or·
dinary Hazard (ECOH) Sprinklers.
APPROVALS AND STANDARDS
The Model F892 ELO Standard Cover-
age Upright Sprinklers are listed by
Underwriters Laboratories Inc. and ap·
proved by Factory Mutual Research
Corporation. They are also listed by
Underwriters Laboratories Inc. for use
in Canada (i.e., C-UL Listed).
7/1611 (11,1mm) TEMPERATURE RATING IS ON DEFLECTOR.
2-7/16"
(60,3mm)
'171----7
t 3/4"NPT
-t 1/2" (12,7mm) MAKE-IN
1 -Frame
2 -Button
3 -Gasketed
Spring
Plate
4 -Bulb 6 • Deflector
5 -Compression 7 -Pintle
Screw
FIGURE A
MODEL F892 ELO STANDARD COVERAGE UPRIGHT SPRINKLER
The laboratory listings and approval
only apply to the service conditions
indicated in the Technical Data and
Design Criteria sections.
WARNING
The Mod£/ FB92 Upright Sprinklers
described herein must be installed
and maintained in compliance with
this document, as well as with the
applicable standards of the National
Fire Protection Association, in addi-
tion to the standards of any other au-
thorities having jurisdiction. Failure
to do so may impair the integrity of
these devices.
The owner is responsible. for main-
taining their fire protection system
and devices in proper operating con-
dition. The installing contractor or
manufacturer should be contacted rel-
ative to any questions.
TECHNICAL DATA
The Model F892 ELO Standard Cover·
age Upright Sprinklers are rated for
use at a maximum service pressure of
175 psi (12, 1 bar). They are available
in the temperature ratings indicated in
Table A and with either a natural brass
or a chrome plated finish.
Temperature
Rating
135"F/5TC
155"F/68'C
175"F/79'C
200"F/93"C
286'F/141"C
360.F/182'C
Bulb Liquid
Color
Orange
Red
Yellow
Green
Blue
Mauve
TABLE A
TEMPERATURE RATINGS
The nominal discharge curve plotted in
Figure B represents the flow "Q" in
GPM (LPM) as determined by the fol-
lowing formula:
O=K{ji
where the nominal sprinkler discharge
coefficient "K" = 11.4 (164,2) and "p"
equals the residual flowing pressure in
psi (bar). Listing standards permit the
actual value of "K" to vary from 11.0 to
11.5 (158,4 to 165,6) for sprinklers
having a nominal orifice size of 5/8
inch; however, for hydraulic calcula-
tions, a K-factor of 11.4 (164,2) is to be
applied.
The Frame of the Model F892 Sprink·
ler, (Ref. Figure A), is brass per ASTM
B584 (C83600 or C84400). The Button
(bulb retainer) is phosphor bronze per
ASTM B103 (C51000 orC52100). The
Gasketed Spring Plate consists of a
Berylium Nickel (N03360) disc spring
OISCHARGE IN U.S. GALLON$ PER MINUTE {GPM)
so'o 30 40 so GO 10 110
DISCHARGE IN LITRES PER MINUTE
FIGUREB
NOMINAL DISCHARGE CURVE
that is sealed on both its inside and
outside faces with a T ellonf gasket.
The Compression Screw is bronze per
ASTM 8140 (C31400) and the Deflec-
tor is brass per ASTM B36 (C22000,
C24000, or C26000). The Pintle, which
signifies that the 3/4 inch NPT sprink-
ler is other than a 17/32 inch orifice
sprinkler, is stainless steel (S42000).
The Model FB92 Sprinklers utilize a
5mm diameter frangible bulb. Table A
indicates the bulb liquid color as a
function of temperature rating.
DESIGN CRITERIA
The Model F892 ELO Standard Cover-
age Upright Sprinklers must only be
installed in accordance with the appro-
priate listing or approval requirements,
as indicated below:
UL and C-UL Listings
• F892 Sprinklers may be installed in
accordance with NFPA 13 standard
sprinkler position and area/density
flow calculation requirements with a
minimum residual (flowing) pressure
of 7 psi (0,5 bar), or
• FB92 Sprinklers may be installed in
accordance with NFPA 231, 231C,
or 231 D standard sprinkler position
and area/density flow calculation re-
quirements with a minimum residual
(flowing) pressure of 1 0 psi (0, 7 bar),
or
• FB92 Sprinklers, when acceptable to
the Authority Having JurisdiC1ion,
may be used to protect single, dou-
ble, multiple-row, or portable rack
storage of Class I-IV commodity,
cartoned or uncartoned unexpanded
Group A or B plastics, or, cartoned
expanded Group A or B plastics with:
-a storage height of up to 20 feet
(6,1m);
a maximum ceiling height of 25
feet (7,6m);
a minimum defleclor to top of stor-
age clearance of 36 inches (0,9m);
a minimum design density of 0.60
gpm/ft2(24 mm/min);
a minimum residual (flowing) pres-
sure of 10 psi (0,7 bar); and,
a minimum design area of
2000 ft2 (186 m'l) for wet systems
or 2600 ft2 (242 m2) for dry sys-
tems.
FM Approval
• F892 Sprinklers are to be installed in
accordance with the applicable Fac-
tory Mutual Loss Prevention Data
Sheets with a minimum residual
(flowing) pressure of 10 psi (0,7 bar).
INSTALLATION
NOTE
Do not install any bulb type sprinkler
if the bulb is cracked or there is a loss
of liquid from the bulb. With the
sprinkler held horizontal, a small air
bubble should be present. The diame-
ter of the air bubble is approximately
1116 inch (1,6mm) for the
135°F 157°C to 3132 inch (2,4mm) for
the 360°F I 182°C rating. (At higher
ambient temperatures, the bubble
may be barely perceptable for the
lower temperature ratings.)
The Model F892 ELO Standard Cover-
age Upright Sprinklers must be in-
stalled in accordance with the follow-
ing instructions.
1. Apply pipe thread sealant sparingly
to the sprinkler threads only. Use of
a Teflont based pipe thread sealant
is recommended.
2. Hand lighten the F892 Sprinkler into
the sprinkler fitting.
3. Using an 8 or 1 O inch adjustable
Crescent type wrench applied to the
sprinkler Wrench Flats (Ref. Fig. A),
tighten the F892 Sprinkler into the
sprinkler fitting.
NOTE
A leak tight 314 inch NPT sprink-
ler joint should be obtained with a
torque of 10 to 20 ft.lbs. (13,4 to
26,8 Nm). Higher levels of torque
may distort the sprinkler inlet
with consequent leakage or im-
pairment of the sprinkler.
CARE AND R1AINTENANCE
Automatic sprinklers must never be
shipped or stored where their temper-
atures will exceed 1 oo·F/38°C and
they must never be painted, plated,
coated or otherwise altered after leav-
ing the factory. Modified sprinklers
must be replaced. Sprinklers that have
been exposed to corrosive products of
combustion, but have not operated,
should be replaced ii they cannot be
completely cleaned by w1pmg the
sprinkler with a cloth or by brushing it
with a soft bristle brush.
Care must be exercised to avoid dam-
age to the sprinklers -both before
and after installation. Sprinklers dam-
aged by dropping, striking, wrench
twist/slippage, or the like, must be re-
placed. Also, replace any sprinkler that
has a cracked bulb or that has lost
liquid from its bulb (ref. Installation
Section).
NOTE
Before closing a fire protection system
control valve for maintenance work on
the fire protection system which it con-
trols, permission to shut down the af-
fected fire protection system must be
obtained from the proper authorities
and all personnel who may be affected
by this action must be notified.
It is recommended that automatic
sprinkler systems be inspected quar-
terly by a qualified Inspection Service.
WARRANTY
Seller warrants for a period of one year
from the date of shipment (warranty
period) that the products furnished
hereunder will be free from defects in
material and workmanship.
For further details on Warranty, see
Price Ust.
ORDERING PROCEDURE
Contact your local distributor for avail-
ability.
Sprinkler Assemblies:
Specify: 11.4 K-factor, (specify tem-
perature rating), Model F892 ELO
Standard Coverage Upright Sprinkler
with (specify finish), PSN (specify).
Natural Brass Finish
135"F"57"C ............. PSN 51-892-1-135
155"F/68"C ............. PSN 51-892-1-155
175"F/79"C ............. PSN 51-892-1-175
200"F193"C ............. PSN 51·892-1-200
286"F/141"C ............ PSN 51-892-1-286
360"F/182"C ............ PSN 51.S92-1-360
Chrome Plated Finish
135"F/57"C ............. PSN 51·892-9-135
155"F/68"C ............. PSN 51-892-9-155
175"F/79"C ............. PSN 51-892-9-175
200"F/93"C ............. PSN 51·892-9-200
286.Ff141"C ............ PSN 51-892-9-286
360"F/182"C ............ PSN 51-892-9-360
PATENTS
The following patents are applicable to
the Model F892 Sprinklers:
COUNTRY ......... PATENT NO.
U.S.A.. . ............ 4,901,799
Canada. . ........... 1,311,984
Australia. . . . . . . . . . . . . . 632969
Germany . . . . . . . . . . . 689 04 929
EXTENDED COVERAGE LIGHT HAZARD SPRINKLERS
PENDENT AND RECESSED PENDENT
MODEL F890 DESIGNER QUICK RESPONSE, 3 mm BULB TYPE, K:8.0
SPRINKLER WRENCHING AREA
(BOTH SIDES)
PENDENT
1/2" (12,7 mm)
MAKE-IN
2-3/B"
(60,J mm)
1-5/8"
(41.3 mm)
1 -Frame
2 -Button
Temperature rating is indicated on deflector.
2-7/8"
1-4-------(75,0 mm)--------
DIA.
3/4" NPT
3 -Gasketed
Spring
Plate
RECESSED PENDENT
MODEL F705
RECESSED
ESCUTCHEON
4 • Bulb 6 -Deflector•
5 -Compression
Screw
1------·
5
6
CROSS SECTION
** Pipe thread connections per ISO 7/1 can be provided on special request.
FIGURE A
8.0 K-FACTOR MODEL F890 QUICK RESPONSE EXTENDED COVERAGE LIGHT HAZARD
PENDENT AND RECESSED PENDENT
GENERAL DESCRIPTION
The 8.0 K-Factor (17/32 inch orifice),
Model F890 Designer Quick Re-
sponse Extended Coverage Light Haz-
ard (ECLH) Pendent and Recessed
Pendent Sprinklers (Ref. Figure A) are
automatic sprinklers of the frangible
bulb type. They are intended for use in
automatic sprinkler systems designed
in accordance wilh standard installa-
tion rules (e.g., NFPA 13) for the pro-
tection of light hazards up to a maxi-
mum coverage area of 400 ft2 (37 ,2
m2), as compared to the maximum
coverage area of 225 ft2 (20,9 m2) for
standard coverage sprinklers.
The recessed version of the F890
ECLH Sprinkler is obtained by combin-
ing the pendent sprinkler with the
Model F705 Recessed Escutcheon
(Ref. Figures A and C). The F705 Re-
cessed Escutcheon provides 1 /4 inch
(6,4 mm) of recessed adjustment or up
to 1 /2 inch ( 12, 7 mm ) of adjustment
from the flush pendent position. The
F705 is a separable two-piece design
which allows installation of the sprin-
klers and pressure testing of the fire
protection system, prior to ceiling con~
struction and/or application of a finish
coat to the ceiling. They also penmit
refinishing of a ceiling surface w~hout
having to first shut down the lire pro-
tection system and remove sprinklers.
The adjustment provided by the F705
substantially reduces the accuracy to
which the fixed pipe drops to the sprin-
klers must be cut. Also, the Closure
has a 1/2 inch (12,7 mm) wide flange
which provides ample clearance for
covering the mounting hole.
APPROVALS AND STANDARDS
Laboratory listings and approvals for
the 8.0 K-factor, Model F890 De-
signer Quick Response Extended
Coverage Light Hazard (ECLH) Pen•
dent and Recessed Pendent Sprin-
klers are given in Table A.
The laboratory listings and approvals
only apply to the service conditions
indicated in the Technical Data and
Design Criteria sections.
WARNING
The Model FB90 Designer Quick Re-
sponse Extended Coverage Light Haz-
ard (ECLH) Pendent and Recessed
Pendent Sprinklers described herein
must be installed and maintained in
compliance with this document, as
well as with the applicable standards
of the National Fire Protection Assa·
ciation, in addition to the standards
of any other authorities having juris-
SPRINKLER RNISH
TEMPERATURE BULB NATURAL CHROME POLYESTER
TYPE RATING COLOR BRASS PLATED COATED
CODE IAII Coloral
135'F/57"C Orange
PENDENT 155'F/68'C Red 1, 2, 3
175'Fn9'C Yellow
135°F/57°C Orange
RECESSED' 155'F/68'C Red 1, 2, 3
175'Fn9'C Yellow
NOTES:
1. Listed by Underwriters Laboratories, Inc.
2. Listed by Underwriters Laboratories for use in Canada {i.e. C-UL Listed).
3. Approved by Factory Mutual Research Corporation. • Installed with 3/4 Inch Model F705 Recessed Escutcheon.
TABLE A
LABORATORY LISTINGS AND APPROVALS
diction. Failure to do so may impair
the integrity of these devices.
The owner is responsible for main-
taining their {ire protection system
and devices in proper operating con-
dition. The installing contractor or
manufacturer should be contacted
relative to any questions.
TECHNICAL DATA
The 8. 0 K-Factor, Model F890 De-
signer Quick Response Extended
Coverage Light Hazard (ECLH) Pen-
dent and Recessed Pendent Sprin-
klers are rated for use at a maximum
service pressure of 175 psi (12, 1 bar)
and they are available in the tempera-
ture ratings and finishes indicated in
Table A.
Recessed versions of the F890 ECLH
Sprinklers are obtained by utjlizing the
Model F890 Pendent Sprinkler in com-
bination with the Model F705 Re-
cessed Escutcheon. The Model F705
Escutcheons are available either with
a chrome plated finish or a coated fin-
ish in any color.
The nominal discharge curves plotted
in Figure B represent the flow "Q" in
GPM (LPM) as determined by the for-
mula:
where the nominal sprinkler discharge
coefficient "K" equals 8.0 (115.2); and
"p" = pressure in psi (bar). Listing
standards permit the actual value of
"K" to vary from 7.4 to 8.2 (106,6 to
118,1).
The F890 utilizes a 3 mm Bulb with a
die~cast dezincification resistant
bronze alloy Frame. The two pieces of
the Button Assembly are constructed
from brass per ASTM B16 (C36000)
and copper (C12200). The Gasketed
Spring Plate consists of a Beryllium
Nickel (N03360) disc spring that is
sealed on both its inside and outside
edges with a Teflonf gasket The
Compression Screw is a bronze per
ASTM B140 (C31400), and the Deflec-
tor is brass per ASTM 836 (C22000).
The F705 Recessed Escutcheon pro-
vided for use with the F890 ECLH
Sprinklers (Ref. Figure C) has a Clo-
sure and Mounting Plate fabricated
from low carbon steel. The Mounting
Plate prongs, which are compressed
back into the Mounting Plate as the
Closure is pushed over it, maintain a
tight friction fit between the two pieces.
The Mounting Plate and Closure can
also swivel relative to each other and
compensate for non-perpendicularity
between the F890 ECLH Sprinkler and
the ceiling.
DESIGN CRITERIA
The 8.0 K-Factor, Model F890 De-
signer Quick Response Extended
Coverage light Hazard (ECLH) Pen-
dent and Recessed Pendent Sprin-
klers are only to be installed in accord-
ance with Table B-1 or B-2, as
applicable.
INSTALLATION
NOTE
Do not install any bulb type sprinkler
if the bulb is cracked or there is a loss
of liquid from the bulb. With the sprin-
kler held horizontal, a small air bub-
ble should be present. The diameter of
the air bubble is approximately 1116
inch (1,6 mm) for the 135'F/57'C to
175'F/79'C temperature ratings.
(The bubble, in some cases, may be
barely perceptible for the lower tem-
perature ratings.)
The Model F890 Quick Response
ECLH Sprinklers must be installed in
accordance with the following instruc-
tions.
1. Prior to installing each sprinkler, ver-
ify that the face of the sprinkler fitting
is within the proper range of distance
which can be accommodated by the
particular type of escutcheon.
When installing the F890 Sprinkler
with the F705 Recessed Escutch-
eon, for best overall appearance,
use Dimension "A" indicated under
the "Fully Recessed Dimensions"
heading of Figure C. Otherwise, use
Dimension "'A" under the "High Ad·
justment Dimensions" heading. In
either case, the remaining adjust-
ment can then be used to compen-
sate for the possible manufacturing
variations in the take-out of the fit-
tings, as well as in the make-in of the
sprinklers (as permitted by ANSI
B1.20.1).
2. W~h pipe thread sealant applied to
the pipe threads and after inst~lling
the F705 Mounting Plate (or other
escutcheon, as applicable) over the
sprinkler threads, hand tighten the
sprinkler into the sprinkler fitting.
.~
50
45
" ~ ~ 40 X u • w JS i w
~ JO w ~
w 0 25 z ~ 0 ~ • 20
ii! ~ ~ 15 ~ w ~ ~
10
5
20 25 JO 35 40 45 50
DISCHARGE IN U.S. GALLONS PER MINUTE (GPM)
Partial curves only. Maximum pressure 175 psi (12, 1 bar).
J,0
2,5
1 2,0
1,0
0,5
Rater to the Design Crlterla section for minimum pressure requirements.
FIGUREB
75
.,'l-,' ,
+
6eE
100 125 150 175
DISCHARGE IN LITRES PER MINUTE (LPM}
NOMINAL DISCHARGE CURVES
FULLY RECESSED
DIMENSIONSt
Up to 1/4 Inch adjustment from
minimum 1/4 Inch to maximum
1/2 Inch recessed posHlon.
Dim.
A-
B·Min.
B-Nom.
B-Max.
C-Min.
C-Max.
Inches
112tt
1-1/8
1-114
1-318
114
1/2
HIGH ADJUSTMENT
DIMENSIONS
MM
12,7
28,6
31,8
34,9
6,4
12,7
FACE OF
FITTING
L
C
2-7/6" DIA. ---1----1 (73,0 mm)
200
MOUNTING
SURFACE
1
Up to 1/2 Inch adjustment from
the flush celling position to 1/2
Inch recessed position.
t -r-2b I 2•
1/6• (3,2 mm) j
Dim. Inches MM
A-318±1/Btt 9,5±3,2
B-Mln. 1-1/8 28,6
B-Nom. 1-318 34,9
B-Max. 1-5/8 41,3
C-Min. FLUSH
C-Max. 1/2 12,7
t For best overall appearance.
tt Remaining 1/4 inch (6.4 mm) of
adjustment can be used to compensate
for variations in sprinkler make-in and
fitting take-out.
B
l
1-Model F890 ECLH Pendent Sprinkler
2-Model F705 Recessed Escutcheon
a-Mounting Plate
b-Closure
FIGUREC
MODEL FB90 QUICK RESPONSE ECLH RECESSED PENDENT SPRINKLER ASSEMBLY
WITH TWO-PIECE MODEL F705 RECESSED ESCUTCHEON
COVERAGE AREA ~r~, MINIMl/lt' SPRINKLER
APPLICATION WxL PRES. TEMP. RATING FT.x FT.(m x m) GPM(LPM) PSI (BAR) •F
16 X 16 (4.9 X 4,9) 26 (98) 10.6 (0,73) 135, 155, 175
QR-Ee<•> 18 X 18 (5,5 X 5,5) 32 (121) 16,0 (1,10) 135,155,175
20x20(6,1 x6,1) 40 (151) 25,0 (1,72) 135,175
NOTES:
(a) For use in QR-EC and EC Light Hazard Occupancy automatic sprinkler system applications per NFPA 13.
(b) Requirement Is based on minimum flow in GPM from each sprinkler. The Indicated residual pressures are based on the nominal K-factor.
(c) The FB90 ECLH Sprinklers are only permitted to be used with unobstructed, smooth ceiling construction as defined by NFPA 13.
(d) Follow the requirements of NFPA 13 for spacing of the F890 ECLH Sprinklen, with respect to celling mounted obstructions.
(e) The minimum allowable spacing between the F890 ECLH Sprinklers, to prevent cold soldering, is 8 feet (2.4 m).
(f) The maximum permitted ceiling slope for F890 ECLH Sprinklers is a 2 inch (50,8 mm) rise over a 12 inch (304,8 mm) horizontal run.
(g) The deflector-to-ceiling distance for the F890 ECLH Sprinklers is 1-5/8 to 12 inches (41,3 to 304,8 mm), unless the Model F705 Recessed
Escutcheon is utilized.
NOTES:
TABLEB
. UL AND C-UL LISTING CRITERIA FOR INSTALLATION OF
8.0 K-FACTOR MODEL F890 QUICK RESPONSE EXTENDED COVERAGE LIGHT HAZARD
PENDENT AND RECESSED PENDENT SPRINKLERS
COVERAGE AREA ~~,, MINIMl/lt' SPRINKLER
APPLICATION WxL PRES. TEMP. RATING
FT.x FT.(m x m) GPM(LPM) PSI (BAR) •F
16 X 16 (4,9 X 4,9) 26 (98) 11 (0,76) 135,155,175
QR-Ee<•> 18X 18 (5,5 X 5,5) 32(121) 16(1,10) 135,155,175
20X2016, 1 X 6,1) 40 (151) 25 (1,72) 135, 175
(a) For use in OR-EC and EC Light Hazard Occupancy automatic sprinkler system applications per FM installation standards. (Maximum room
size: 1600fl0 (150 rn2) except for corridors protected by one row of sprinklers. Minimum fire-resistance rating al room walls: 30 minutes.)
(b) Requirement Is based on maintaining both minimum flow and minimum pressure.
(c) The F890 ECLH Sprinklers"'" only permitted to be used with smooth level ceilings per FM Installation standards.
(d) The minimum allowable spacing between the F890 ECLH Sprinklers, to prevent cold soldering, is 8 feet (2,4 m).
(e) The maximum permitted ceiling slope for F890 ECLH Sprinklers Is a 1 inch (25,4 mm) rise over a 12 inch (304,8 mm) horizontal run.
(f) The deflector-to-ceiling distance for the F890 ECLH Sprinklers is 1-5/8 to 4 inches (41,3 to 101,6 mm), unless the Model F705 Recessed
Escutcheon is utilized.
(g) The maximum ceiHng helghtfor the F890 ECLH Sprinklers Is 10 feet (3,1 m).
TABLE B-2
FM APPROVAL CRITERIA FOR INSTALLATION OF
8.0 K-FACTOR MODEL F890 QUICK RESPONSE EXTENDED COVERAGE LIGHT HAZARD
PENDENT AND RECESSED PENDENT SPRINKLERS
-
,__,e, Flo0/Dyna-FIOW®
':ligh Strength Steel Pipe
The original high-strength llghtwa/1 sprinkler pipe with hydraulics superior to Schedu/e-10.
Super Flo/Dyna-Flow pipe is the "original"
high-strength lightwall sprinkler pipe.
Super Flo/Dyna-Flow has outstanding
hydraulic capabilities and is recognized
as the most popular alternative to
Schedule-IO pipe. Lightweight, easy to
cut and easy to handle for installation.
Super Flo/Dyna-Flow is a valuable
addition to any fire protection system.
, :.i,uperior Hydraulics
With an inside diameter of up to 11 %
larger than Schedule-40 and up to 7%
larger than Schedule-I 0, Super Flo/
Dyna-Flow pipe hydraulics are exceptional.
~ ,:ger l.D.s enable Super Flo/Dyna-Flow,
u11d related components, to be down-
sized within the system, thus increasing
the potential for job cost savings. For
complete Hazen-Williams charts, refer to
"Super Flo/Dyna-Flow Hydraulic Data
Tables."
:·.,,;;;ings & Fabrication
'' Super Flo/Dyna-Flow products are coated
with an environmentally approved and
specially formulated modified-acrylic or
water-based coating. This durable coating
is paintable. The black coating acts as
an excellent primer and is resistant to
weathering and U. V. degradation from
outdoor storage.
Metallurgical properties provide excellent
fabrication characteristics for end prep
finishes, welding and roll grooving. No
r-.cial process or equipment are needed
fabrication and installation.
Specifications '"'"''" • •Metn,
Product Nominal Wt/fl Wt/Fl
NPS I.D. H20Rlled
X 1" 1.191 0.830 1.31
.25 30.3 1.2 1.95
X 11/4" 1.536 1.059 1.87
.32 39.0 1.6 2.78
X 11/2" 1.728 1.667 2.71
.40 43.9 2.5 4.03
X 2" 2.203 2.104 3.79
.50 56.0 3.1 5.64
X 2 1/2" 2.703 2.564 5.10
•65 68.7 3.8 7.59
X 3" 3.314 3.387 7.18
.so 84.2 5.0 10.69
X 4" 4.310 4.473 10.86
.go 109.5 6.7 16.16
X 6" 6.403 7.714 21.70
.150 162.6 11.5 32.29
Specifications & Approvals
Super Flo/Dyna-Flow pipe is
manufactured to meet ASTM A-
795 Type E, Grade A and is in
compliance with NFPA-I 3 and
NFPA-14. All sizes of Dyna
Flow/Super Flo are UL Listed,
FM Approved and ULC Listed.
® -@f) listed Approved Usted
Super Flo/Dyna-Flow is UL/ULC
Listed for use with roll grooved,
plain-end couplings, and welded
joints for wet, dry, preaction and
deluge systems. It is FM Approved
for roll grooved, plain-end, and
welded joints for wet systems.
Refer to appropriate documentation
for up-to-date listing and approval
information. Super Flo/Dyna-Flow
is now available "hot-dip"galvanized
and has been specifically approved
by FM for dry systems uses.
Pcs/ Wt/Ufl Wt/Uft Wt/lift
lift 21' 24' 25'
91 1586 1812 1888
91 719 822 856
61 1356 1550 1615
61 615 703 733
61 2135 2440 2542
61 968 1107 1153
37 1634 1868 1946
37 741 847 883
30 1615 1846 1923
30 733 837 872
19 1351 1544 1608
19 613 700 729
19 1784 2039 2124
19 809 925 963
10 1620 1851 1928
10 735 840 875
Additional Benefits
• Lightweight and easy to install.
resulting in more efficient use of
your freight and labor dollars.
• Provides stability needed to
comply with standard hanger
spacing (15 ft O.C.) per NFPA.
• Available in Standard lengths
for your convenience, or can be
ordered in custom lengths
upon approval.
• Fast cutting and welding, as well
as easy roll grooving and end
preparation.
• Available in Factory roll grooved
form for quicker shop turnaround.
• Clean, durable mill coating
provides longer "shelf life" and
acts as an excellent primer for
custom paint applications.
'11 IAS: & r.rwnt IIT 16100 S. Lathrop 11350 Norcom Rd. 2525 N. 27th Ave. Customer Service:
A.uc:; 13 98 08: 20a
Jul 09 98 0?:25p
7-09--1998 2 19PM
Rick Huff
R1Ck Huff
760 721-5355
760 721 -5355
p '
I
Super 409/D i na-Thread·
}"ull Line Sch-40 Re lacement
f1I Sllfl-40 wifll 5lljHINf lt)dlades and,,,,.,~---
<;uper 40/0yna•Thuad !1.p,"'1'.la ppc: rq,tfffftl .. an ~ftl?i
the: .'Htlely 2ind t.)ft~vlly ot' traditNO;&f Sch-40 fH:11C •ilh.
nog Jdvanccmcna fur ft <p,inldc, pipe tnduwy. h c~,mbi.Dt.~
ity and '-llpC!iur hydraulic ad\lfta~U-
Comparison to Sch£1oule 10
• 5" ..... 40tl)),aa-Ttuad', .-..C cliialacll:r i,i
up ., ).6'A, bq<r -Sch-CO &MIii it
.. upcnnr hydr.wlil"i An&I. when llst.d di
\~ with 0,N•finw,..,\toWn
•tal"III, ufkD OCCDR
• S.pu AllfO,...n...d ,, lully •-' •
,,..,....., UL, UU:, ... FM lo, fin;
~1,nnllet apphl.:11."""'
• 1Ttc ijf, .,,,.._, Ill s.,.,r 4M>yao-TLn31
... 'ich--0 ... ,...a-d .. lhe-
w .. O lhickue:{,WS per UL{!« OR).
• J)K. Uft'-1\IC!H ~J ul .,1':Cl 1PC'1 10 IUlt
s,..,~nr...il:.:,--
fhrtiwint .lftd lilWflr mailllt"3MC l."U\t,.
•Theca1enurul Surr,er-,0,,•>-Tbn:adl•
JWIIIUWd by :1 dun . ._,:.bk mill C9Qti ....
tu, ellksldtd ~IJ liote ..,., .;.q;J
I""" aprlic.xion.
• Wtdt III IPCf'aad Urcaglh -.1 lt.., wtipl. s.,,.,41J1Dy ... nr..o-.-
fari:i,e aftd '"' idi;;d f«M· ,,ec.v.ftl 11ppl' ,.,. .... _
Cw1uC9un Ra 1nct ltlllio (CRR) ,,
a UL fUfM,...file« LabOJJ&tur7) rrnn
fot fM Ide a,.ptt:Llllty uf I
pipe. ,ttlliM. '" ~ (1ft 11\1::
clllcubled thlct~ $ die bHa
ot'tMfil~ k.S.;l.'.ulfflldlO
klh< ... .,rn, .. ...,.
ltwp a.'J'bt'ul ad
Sdt-4(} !'I-. c.aklllalff •.all
duck ·a:pumtllldnbolh
CRRvl I 00.
Spcc1f1cat1ons --WIIR -...., WI/Ill ---, ... --.. n· n· ...
.i· 1.080 1.llO 115 70 295$ 2214 m1
.2s 27.4 20 HO 10 .. , l013 105&
• 1 11•-..... 1.870 2.s. $1 2002 ,_ tlll'
.32 358 28 3.78 51 908 1038 1081
:Ti.n~ -i:639 2.290 3.22 .. 2115 2-UB 2rt19
•• o .C1_6 ,.. 479 ... ... 1007 1143 -~----· • 2· 2.J.04 3.050 4.S7 30 1921 21915 1281 .... 53.4 ••• 6.80 30 871 .... \037
(;1oled
WICIQNDU!f
Comparison to L.W T. Pipes.
• MMt. •ail--~. the ,hl-ud
(Clblflll) :1.., Sap<r 41W
O,,...llftod-lilo -·-~ ... ti---11w.-,.,., ju,M>.
• U.hu l;pt,,oll lh•-lkp<.
~ <IM>,,aa-TIIDd h»i no --·~ ·:S.,..«WJ-llllcad"'>l'l"'-
fa,51_.....,.,....,1u11
o.c.~ """" -"' ........... , .... , bt'Kili, llki: 1:r, ~ In IA a!: ~
• 'luptl lll/0,,,.. TI,,c,d ;,. ufer to
weld or,.
• S-,u 40a1>y.,.. ~ l!I IIPC
wMlcly ............. i,,ll(w.11
~ wkn: Sch--'O is spcalicd
S.per "°'°""""Th,e,d pip<;,
imn.4.-..'UIR:d rn IMel': A.STM A.-tJ'i.
Gnd<" ..... "' ..,.._ ....
NFPA-1'.I.All~ofStrpa'4&
o, ... Titfead w nlt4 .a 1un l'Ci
...... -i:....-
,..,...4MJ1 ... lll&uol"'\JL and \JU:
Lilted for wet. dly ~ --' pn;-ation
,i,rillkler •-Md FM ,._<d lo,
... ·-,,..._. 5-,ooy ... Tlllcaid ~ he .. ,_~,. ,.a11r;d')1.a,:d (1\
... FM n:qu1 ..011 £• dry ~r-c1:.ra,-
~ -;, -"<Ii"" aJI ~ a..pl111p _, wchkd 1,udt1•
-u ... bblc far .. ,oll~J. -plao,tad tiatiltg,. (S--lii.lap i~oo}.
--· 1.e.oo-797,6210
Fn 7M334t805
p.4
P· I
ictaulic·
An ~ 9001 certified company
PRODUCT DESCRIPTION
Patented
FireLock"' products com-
prise a unique system spe-
cifically designed for fire
protection services. Fire-
Lock fittings are a CAD-
developed, hydrodynamic
design which have a
shorter center-to-end
dimension than standard
fittings. A noticeable bulge
allows the water to make a
IPS CARBON STEEL PIPE 10 03
FIRE PROTECTION PRODUCTS •
smoother turn to maintain
similar flow characteristics
as standard full flow fit-
tings.
FireLock Style 005 rigid
coupling has a unique, pat-
ented angle-pad design
which allows the housings
to offset while clamping the
grooves. By permitting the
FireLockTM
Fittings
housings to slide on the
angled bolt pads, rigidity is
obtained.
FireLock fittings are
designed for use exclu-
sively with Style 005 Fire-
Lock couplings. Use of
other couplings or flange
adapters may result m bolt
pad interference.
DIMENSIONS Pipe No. 001 No. 003 No. 002 No.006
Inches/mm 90° Elbow 45" Elbow Straight Tee Cap
Thickness
Cto E Weight Cto E Weight Clo E Weight "T" Weight
Nominal Actual Inches Each Inches Each Inches Each Inches Each
Size Size mm LbsJkg mm LbsJkg mm LbsJkg mm LbsJkg
11/~ 1.660 ------0.82 03
. :. ' '
1½ 1.900 ------0.82 04 , .. ,.
No. 001 No. 003 2 2.375 2.75 17 2.00 1.8 2.75 2.4 0.88 06
'' ' .
2!1 2.875 300 3.1 2.25 2.2 300 36 0.88 1.0
• ' '
3O.D. 3.000 300 3.30 2.25 2.4 ·---
3 3.500 338 4.0 2.50 3.1 338 5.3 0.88 1.2
,,' ; ' '. >
4 4.500 400 67 3.00 5.6 4.00 8.7 100 24
' . . ' .
No. 002 No. 006 5 5.563 488 12.6 3.25 8.3 4.88 15.7 1.00 4,1 ,, ,·•. ''
6 6.625 550 18.3 3.50 11_7 5.50 22.7 1.00 5.9
·,. '
8 8.625 681 25.5 425 204 6.94 38 7 1.13 12.7 -·, .·-,
INCORPORATED
CORONA. CA• (909) 737--5599
FIG. 2 ADJUSTABLE RING HANGER
15
FIG. 2 NFPA ADJUSTABLE RING HANGER WITH REDUCED ROD SIZE
Size Range • 1/2 thru 6 inch pipe.
Material -Carbon Steel, Mil. Galvanized to G-90
specification.
Function -For general piping purposes. Knurled
swivel nut design permits hanger adjustment after
installation. Spring tension on swivel nut holds it
securely in hanger before installation. Swivel nut
easily removed.
Approvals -Underwriters' Laboratories listed and
Factory Mutual Engineering approved. Conforms
to Federal Specification WW-H-171E, type 10, and
Manufacturers Standardization Society SP-69,
type 10.
Maximum Temperature -650°F
Finish -Mil. Galvanized and Stainless Steel.
Order By -Figure number and pipe size.
PIPE ROD
SIZE SIZE A B C
2-5/8 1-3/8
2-5 8 1-1/8
1
5 5/8** 9 2-1/4
•.':!./Iii." ""t ia n-d whon NJ:PA ...-.,t aiftnn ; • .,..,.uoctod
C
B
A
I
~---l+----+--
I
'
MAX. APPROX. WEIGHT PER 100
STOCK REC. FIG. 2
SIZE LOAD LBS. FIG.2 NFPA
16 xl 400 17
ifilll5£ iii LI I Pl Ji
16 axl 400 18
16gax 1 400 21 21
600 41 40
52 50
12gax 1-1/4 1250 97 95
FIG. 51
INCORPORATED
CORONA, CA• (909) 737.5599
FIG. 51 AND FIG. 52
SIDE BEAM BRACKETS (CONT.)
A
FIG. 52
FIG. 51 for NFPA Rod and Fastener Sizing
PIPE SIZE ROD
SIZE A B
HOLE SIZE
C H-1 H-2
STOCK SIZE
APPROX.
WEIGHT
PER 100
1/2 • 2 3/8 2 3/4
1/2 2-1/2 3/4
2 7/16 7/16
2-1/2 9/16 9/16
3/16x2
3/8x2-l/2x2-l/2
35
71
FIG. 52 -6 Hole Bracket
ROD SIZE
3/8xl/2
A
2
B
1-1/16
HOLE SIZE
C H-1 H-2 H-3
2 9/16 7/16 9/32
FIG. 56
TAPPED SIDE BEAM CONNECTOR
Size Range -1/2 thru 4 inch pipe (3/8 inch rod).
Material -Carbon Steel
Function -Practical and economical bracket used
to support hangers from steel or wood beams. Can
be used with concrete shot-type inserts. Tapped
hole allows easy adjustment of hanger rod.
Approvals • Underwriters' Laboratories listed and
Factory Mutual Engineering approved for 1/2 -4"
pipe.
Finish -Plain, Electro-Galvanized, HOO, and
Stainless Steel.
Order By -Figure number and finish.
Note-Per NFPA#l3: 1/2 thru 2 inch pipe use 3/8
inch fastener; 2-1/2 thru 4 inch pipe use 1/2 inch
fastener.
PIPE SIZE A
ROD
SIZE B C D E
1/2 -4 2-5/8 3/8 1 3/8 1-1/16
F
1-1/8
HOLE SIZE G H
7/16 9/16
J
1-1/4
STOCK
SIZE
3/16x2
APPROX. WEIGHT PER 100
35
STOCK
SIZE
APPROX.
WEIGHT
PER 100
l/4xl 20
41
INCORPORATED
CORONA. CA • (909) 737-5599
FIG. 99
ALL THREAD ROD CUT TO LENGTH
Size Range -3/8 thru 7 /8 inch rod in 1 inch
increments.
Material -Carbon Steel
Maximum Temperature -750°F
Finish -Plain, Electro-Galvanized, and Stainless
Steel.
Order By -Figure number, rod diameter, rod
length, and finish.
FIG. 100
ROD
SIZE
3/8
1/2
5/8
3/4
7/8
MAX. REC. LOAD LBS.
FOR SERVICE TEMPS. 650"F 750°F
610 540
1130 1010
1810 1610
2710 2420
3770 3360
ALL THREAD ROD FULL LENGTHS
Size Range -1/ 4 thru 1-1/2 inch rod in 10' -0"
lengths. MAX. REC. LOAD LBS. APPROX. WEIGHT Material -Carbon Steel
Maximum TemJJerature -750°F
Finish -Plain, Electro-Galvanized, and Stainless
Steel.
Order By • Figure number, rod diameter, and
finish.
ROD
SIZE
1/4
1/2
1
1-1/2
FOR SERVICE TEMPS 650"F 750'F PER IOOFT.
240 215 12
1130 1010 53
2710 2420 123
4960 4420 222
11630 10370 510
53
LIFEGUARD FIRE PROTECTION, INC.
2613 TEMPLE HEIGHTS DR. STE: B, OCEANSIDE, CA 92056
(760) 806-9997 • FAX (760) 806-4813
Name: FIRST MECHANICAL
Location: 5606 PALMER WAY
Hydraulic Design Information Sheet
Date: 5-17-99
Building: NEW System No. I OF 1 ------------------------------Con tractor: LIFEGUARD FIRE PROTECTION, INC. Contract No.
Calculated By: RAB Drawing No. I OF 1
Construction: • Combustible O Non-Combustible Ceiling Height -"-2-'-5cc....c----F-t-.
SYSTEM DESIGN
NFPA 13: 0 Light Hazard Ordinary Hazard Group O 1 0 2 0 3 Extra Hazard
NFPA231 0 NFPA231C: Figure: __________ Curve:
D Other (Specify)
□Specific Ruling _____________ Made By ______ Date
Area of Sprinkler Operation
Density
Area Per Sprinkler
3000 SQ. FT. System Type
.45 8 Wet D Dry D Deluge D Pre-Action ----------100 SQ. FT. Sprinkler or Nozzle
100 Make GEM Model ELO-231 ----------Hose Allowance GPM: Inside
Hose Allowance GPM: Outside
Rack S rinkler Allowance
400 Size .64" --'----------K-Factor: 11.4 ---------1 NA Te erature Ratio 286DEG.
CALCULATION SUMMARY
GPM Required _16..c.3.cc.2c.....4_2 ______ PSI Required _4-'-'9-'-.0'--3 ______ At Base of Riser
"C" Factor Used: Overhead 120 Under ound 150
WATER SUPPLY
Water Flow Test Pump Data Tank or Reservoir
Date& Time 9-4-98 Rated Capacity Capacity
Static PSI 112 At PSI Elevation
Residual PSI 100 Elevation
GPM Flowing 1168 Well
Elevation 0 Proof Flow GPM
Location PALMER WAY
Source of Information CARLSBAD MUNICIPAL WATER DISTRICT
COMMODITY STORAGE
Commodity SPEC. Class Location
Storage Height Area Aisle Width
Storage Method: Solid Piled % Palletized %Rack
Rack
0 SingleRow D Conventional Pallet D Automatic Storage D Encapsulated D DoubleRow D Slave Pallet 0 Solid Shelving D Non-Encapsulated D Multiple Row D Open
Flue Spacing In Inches Clearance From Top of Storage to Ceiling
Longitudinal Transverse Ft. In.
Horizontal Barriers Provided
~
I!!
J
First Mechanical
250
240
230
220
210
200
190
180
170
160
150
140
130
120
110
100
90
•
80
70
60
50
40
30
20
10
'
'
~ --
~
UDJ .,,,,.
•
c.-• ....-
v-
~, .. !),, l.,,"
0 250 500 --750 1000 1250 1500
System Demand ..
Sprinkler Demand 64.35
Additional Flo1.1s
PSI@ 1532.42 GPM
100.00 GPM
Hose at Source
Total Demand
400.00 GPM
64.92 PSI@ 2032.42 GPM
Moses
1750
Water Flow (GPM)
Sigma Dynamics Corporation
7700 Supply/ Demand Graph
I I
Margin
Pressure 2.44 PSI
Flo1.1 77.55 GPM
I •-'s' .,
I ~
2000 2250
Water Supply ..
Static 100.80 PSI
Residual 88.80 PSI@ 1168.00 GPM
Elevation 0.00 PSI
~
'-----
N1.as
2500
SUBMITTAL SERIAL NO:2932HY7 05-17-1999 PAGE 1
First Mechanical
Overhead .45/3000
10% buffer off flow test
05/07/99
FLOW TEST RESULTS
Water Supply
STATIC 100.80 PSI
RESIDUAL 88.80 PSI @ 1168.00 GPM
CITY PRESSURE AVAILABLE AT 2032.4 GPM 67.36 PSI
SUMMARY OF SPRINKLER OUTFLOWS
ACTUAL MINIMUM
SPR FLOW FLOW K-FACTOR PRESSURE ----------------
301 43.92 40.72 11. 40 14.84
302 42.81 40.72 11. 40 14.10
303 42.67 40.72 11.40 14.01
304 42.63 40.72 11.40 13.98
305 41.96 40.72 11.40 13.55
306 40.90 40.72 11. 40 12.87
307 40.76 40.72 11. 40 12.79
308 40.72 40.72 11.40 12.76
309 42.49 36.90 11.40 13.89
310 41. 42 36.90 11. 40 13.20
311 41.28 36.90 11. 40 13.11
312 41.24 36.90 11.40 13.09
313 43.58 36.90 11.40 14.62
314 42.49 36.90 11.40 13.89
315 42.34 36.90 11. 40 13.80
316 42.31 36.90 11.40 13.77
317 45.40 36.90 11.40 15.86
318 44.26 36.90 11.40 15.08
319 44.12 36.90 11.40 14.98
320 44.08 36.90 11. 40 14.95
321 48.20 39.21 11.40 17.88
322 45.62 39.21 11.40 16.01
323 45.47 39.21 11.40 15.91
324 45.43 39.21 11.40 15.88
325 47.60 39.21 11.40 17.43
326 44.41 39.21 11.40 15.18
SUBMITTAL SERIAL NO:2932HY7
First Mechanical
Overhead .45/3000
10% buffer off flow test
05/07/99
SUMMARY OF SPRINKLER ourFLOWS
ACTUAL MINIMUM
SPR FLOW FLOW K-FACTOR --------
327 44.27 39.21 11.40
328 44.23 39.21 11. 40
329 47.43 41. 40 11. 40
330 43.83 41.40 11.40
331 43.68 41.40 11.40
332 43.64 41.40 11. 40
334 45.86 41. 40 11. 40
335 45.70 41.40 11.40
336 45.66 41.40 11. 40
TOTAL WATER REQUIRED FOR SYSTEM
ourFLOWS AT 3
ourSIDE HOSE STREAMS AT 0
TOTAL WATER REQUIREMENT
PRESSURE REQUIRED AT 0
MAXIMUM PRESSURE UNBALANCE IN LOOPS
MAXIMUM VELOCITY FROM 21 TO 26
PRESSURE --------
15.08
15.05
17.31
14.78
14.68
14.66
16.18
16.07
16.04
1532.42 GPM
100.00 GPM
400.00 GPM
2032.42 GPM
64.92 PSI
0.00 PSI
21. 90 FPS
05-17-1999 PAGE 2
SUBMITTAL SERIAL NO:2932HY7 05-17-1999 PAGE 3
First Mechanical
Overhead .45/3000
10% buffer off flow test
05/07/99
Location Flow Pipe Fittings Equiv Friction Pressure
in Size & Length Loss Summary
From To GPM IN Devices Ft PSI/Ft PSI
208 308 1.080 L 1.08 C=120 PT 12.76 (308)
Q 40.72 F=T F 5.80 PE 0.47
SG T 6.88 0.4208 PF 2.90
PT 16.13 (208) ------------------
236 336 1.080 L 1.08 C=l20 PT 16.04 ( 33 6)
Q 45.66 F=E F 2.30 PE 0.47
SG T 3.38 0.5201 PF 1.76
232 236 2.203 L 9.00 C=120 PT 18.27 ( 2 3 6)
Q 45.66 F=0 F 0.00 PE 0.00
BN T 9.00 0.0162 PF 0.15
228 232DQ 43.64 2.203 L 8.50 C=l20 PT 18.42 ( 23 2)
Q 89.31 F=0 F 0.00 PE 0.00
BN T 8.50 0.0559 PF 0.48
224 228DQ 44.23 2.203 L 8.50 C=l20 PT 18.90 (228)
Q 133.53 F=0 F 0.00 PE 0.00
BN T 8.50 0.1176 PF 1.00
28 224DQ 45.43 2.203 L 4.00 C=120 PT 19.90 ( 224)
Q 178.96 F=0/T F 11.60 PE 0.00
BN T 15.60 0.2022 PF 3.15
PT 23.05 ( 28)
------------------
235 335 1.080 L 1.08 C=l20 PT 16.07 ( 33 5)
Q 45.70 F=E F 2.30 PE 0.47
SG T 3.38 0.5210 PF 1. 76
231 235 2.203 L 9.00 C=l20 PT 18.30 (235)
Q 45.70 F=0 F 0.00 PE 0.00
BN T 9.00 0.0162 PF 0.15
227 231DQ 43.68 2.203 L 8.50 C=l20 PT 18.45 (231)
Q 89.39 F=0 F 0.00 PE 0.00
BN T 8.50 0.0560 PF 0.48
223 227DQ 44.27 2.203 L 8.50 C=120 PT 18.93 ( 22 7)
Q 133.66 F=0 F 0.00 PE 0.00
BN T 8.50 0.1178 PF 1.00
27 223DQ 45.47 2.203 L 4.00 C=l20 PT 19.93 (223)
Q 179.12 F=0/T F 11. 60 PE 0.00
BN T 15.60 0.2025 PF 3.16
PT 23.09 ( 27)
SUBMITTAL SERIAL NO:2932HY7 05-17-1999 PAGE 4
First Mechanical
overhead .45/3000
10% buffer off flow test
05/07/99
Location Flow Pipe Fittings Equiv Friction Pressure
in Size & Length Loss Summary
From To GPM IN Devices Ft PSI/Ft PSI
------------------
234 334 1.080 L 1.08 C=120 PT 16.18 (334)
Q 45.86 F=E F 2.30 PE 0.47
SG T 3.38 0.5242 PF 1. 77
230 234 2.203 L 9.00 C=120 PT 18.42 (234)
Q 45.86 F=0 F 0.00 PE 0.00
BN T 9.00 0.0163 PF 0.15
226 230DQ 43.83 2.203 L 8.50 C=120 PT 18.57 (230)
Q 89.69 F=0 F 0.00 PE 0.00
BN T 8.50 0.0563 PF 0.48
222 226DQ 44.41 2.203 L 8.50 C=120 PT 19.05 (226)
Q 134.10 F=0 F 0.00 PE 0.00
BN T 8.50 0.1186 PF 1. 01
26 222DQ 45.62 2.203 L 4.00 C=120 PT 20.06 (222)
Q 179.72 F=0/T F 11. 60 PE 0.00
BN T 15.60 0.2038 PF 3.18
PT 23.24 ( 26)
------------------
229 329 1.080 L 1.08 C=120 PT 17.31 (32 9)
Q 47.43 F=T F 5.80 PE 0.47
SG T 6.88 0.5580 PF 3.84
225 229 2.203 L 8.50 C=120 PT 21. 62 (229)
Q 47.43 F=0 F 0.00 PE 0.00
BN T 8.50 0.0173 PF 0.15
221 225DQ 47.60 2.203 L 8.50 C=120 PT 21.77 (225)
Q 95.03 F=0 F 0.00 PE 0.00
BN T 8.50 0.0627 PF 0.53
25 221DQ 48.20 2.203 L 4.00 C=120 PT 22.30 (221)
Q 143.23 F=0/T F 11. 60 PE 0.00
BN T 15.60 0.1339 PF 2.09
PT 24.39 ( 25)
------------------
232 332 1.080 L 1.08 C=120 PT 14.66 (332)
Q 43.64 F=T F 5.80 PE 0.47
SG T 6.88 0.4783 PF 3.29
PT 18.42 (232)
------------------
231 331 1.080 L 1.08 C=120 PT 14.68 (331)
Q 43.68 F=T F 5.80 PE 0.47
SG T 6.88 0.4792 PF 3.30
PT 18.45 (231)
SUBMITTAL SERIAL NO:2932HY7 05-17-1999 PAGE 5
First Mechanical
Overhead .45/3000
10% buffer off flow test
05/07/99
Location Flow Pipe Fittings Equiv Friction Pressure
in Size & Length LOSS Summary
From To GPM IN Devices Ft PSI/Ft PSI
------------------
230 330 1.080 L 1.08 C=120 PT 14.78 (330)
Q 43.83 F=T F 5.80 PE 0.47
SG T 6.88 0.4821 PF 3.32
PT 18.57 (230)
------------------
228 328 1.080 L 1.08 C=l20 PT 15.05 (328)
Q 44.23 F=T F 5.80 PE 0.47
SG T 6.88 0.4902 PF 3.37
PT 18.89 (228) ------------------
227 327 1.080 L 1.08 C=l20 PT 15.08 (327)
Q 44.27 F=T F 5.80 PE 0.47
SG T 6.88 0.4910 PF 3.38
PT 18.93 ( 22 7) ------------------
226 326 1.080 L 1.08 C=120 PT 15.18 ( 326)
Q 44.41 F=T F 5.80 PE 0.47
SG T 6.88 0.4941 PF 3.40
PT 19.05 (226)
------------------
225 325 1.080 L 1.08 C=l20 PT 17.43 (325)
Q 47.60 F=T F 5.80 PE 0.47
SG T 6.88 0.5616 PF 3.86
PT 21. 76 (225)
------------------
224 324 1.080 L 1.08 C=l20 PT 15.88 (324)
Q 45.43 F=T F 5.80 PE 0.47
SG T 6.88 0.5151 PF 3.54
PT 19.89 (224)
------------------223 323 1.080 L 1.08 C=120 PT 15.91 (323)
Q 45.47 F=T F 5.80 PE 0.47
SG T 6.88 0.5160 PF 3.55
PT 19.93 (223)
------------------
222 322 1.080 L 1.08 C=l20 PT 16.01 ( 32 2)
Q 45.62 F=T F 5.80 PE 0.47
SG T 6.88 0.5192 PF 3.57
PT 20.05 (222)
------------------
221 321 1.080 L 1.08 C=l20 PT 17.88 (321)
Q 48.20 F=T F 5.80 PE 0.47
SG T 6.88 0.5748 PF 3.95
PT 22.30 (221)
SUBMITTAL SERIAL NO:2932HY7 05-17-1999 PAGE 6
First Mechanical
Overhead .45/3000
10% buffer off flow test
05/07/99
Location Flow Pipe Fittings Equiv Friction Pressure
in Size & Length Loss Summary
From To GPM IN Devices Ft PSI/Ft PSI
------------------
220 320 1.080 L 1.08 C=120 PT 14.95 (320)
Q 44.08 F=T F 5.80 PE 0.47
SG T 6.88 0.4871 PF 3.35
PT 18.77 (220)
------------------
219 319 1.080 L 1.08 C=120 PT 14.98 (319)
Q 44.12 F=T F 5.80 PE 0.47
SG T 6.88 0.4880 PF 3.36
PT 18.81 (219)
------------------
218 318 1.080 L 1.08 C=l20 PT 15.08 (318)
Q 44.26 F=T F 5.80 PE 0.47
SG T 6.88 0.4910 PF 3.38
PT 18.93 (218)
------------------
217 317 1.080 L 1.08 C=120 PT 15.86 (317)
Q 45.40 F=T F 5.80 PE 0.47
SG T 6.88 0.5146 PF 3.54
PT 19.87 (217)
------------------
216 316 1.080 L 1.08 C=l20 PT 13.77 (316)
Q 42.31 F=T F 5.80 PE 0.47
SG T 6.88 0.4516 PF 3.11
PT 17.35 (216)
------------------
215 315 1.080 L 1.08 C=l20 PT 13.80 (315)
Q 42.34 F=T F 5.80 PE 0.47
SG T 6.88 0.4523 PF 3.11
PT 17.38 (215)
------------------
214 314 1.080 L 1.08 C=l20 PT 13.89 (314)
Q 42.49 F=T F 5.80 PE 0.47
SG T 6.88 0.4551 PF 3.13
PT 17.49 (214)
------------------
213 313 1.080 L 1.08 C=120 PT 14.62 (313)
Q 43.58 F=T F 5.80 PE 0.47
SG T 6.88 0.4771 PF 3.28
PT 18.37 (213)
------------------
212 312 1.080 L 1.08 C=120 PT 13.09 (312)
Q 41.24 F=T F 5.80 PE 0.47
SG T 6.88 0.4308 PF 2.96
PT 16.52 (212)
SUBMITTAL SERIAL NO:2932HY7 05-17-1999 PAGE 7
First Mechanical
Overhead .45/3000
10% buffer off flow test
05/07/99
Location Flow Pipe Fittings Equiv Friction Pressure
in Size & Length Loss Summary
From To GPM IN Devices Ft PSI/Ft PSI
------------------
211 311 1.080 L 1.08 C=120 PT 13.11 (311)
Q 41.28 F=T F 5.80 PE 0.47
SG T 6.88 0.4315 PF 2.97
PT 16.55 (211)
------------------
210 310 1.080 L 1.08 C=120 PT 13.20 (310)
Q 41.42 F=T F 5.80 PE 0.47
SG T 6.88 0.4342 PF 2.99
PT 16.66 (210)
------------------
209 309 1.080 L 1.08 C=120 PT 13.89 (309)
Q 42.49 F=T F 5.80 PE 0.47
SG T 6.88 0.4552 PF 3.13
PT 17.49 ( 2 0 9)
------------------
207 307 1.080 L 1.08 C=120 PT 12.79 (307)
Q 40.76 F=T F 5.80 PE 0.47
SG T 6.88 0.4216 PF 2.90
PT 16.16 (207)
------------------
206 306 1.080 L 1.08 C=120 PT 12.87 (306)
Q 40.90 F=T F 5.80 PE 0.47
SG T 6.88 0.4242 PF 2.92
PT 16.26 (206)
------------------
205 305 1.080 L 1.08 C=120 PT 13.55 (305)
Q 41.96 F=T F 5.80 PE 0.47
SG T 6.88 0.4448 PF 3.06
PT 17.08 (205)
------------------
204 304 1.080 L 1.08 C=120 PT 13.98 (304)
Q 42.63 F=E F 2.30 PE 0.47
SG T 3.38 0.4580 PF 1. 55
208 204 2.203 L 8.83 C=120 PT 16.00 (204)
Q 42.63 F=0 F 0.00 PE 0.00
BN T 8.83 0.0142 PF 0.13
212 208DQ 40.72 2.203 L 8.00 C=120 PT 16.13 (208)
Q 83.35 F=0 F 0.00 PE 0.00
BN T 8.00 0.0492 PF 0.39
216 212DQ 41.24 2.203 L 8.00 C=120 PT 16.52 (212)
Q 124.59 F=0 F 0.00 PE 0.00
BN T 8.00 0.1035 PF 0.83
SUBMITTAL SERIAL NO:2932HY7 05-17-1999 PAGE 8
First Mechanical
Overhead .45/3000
10% buffer off flow test
05/07/99
Location Flow Pipe Fittings Equiv Friction Pressure
in Size & Length Loss Summary
From To GPM IN Devices Ft PSI/Ft PSI
220 216DQ 42.31 2.203 L 8.00 C=l20 PT 17.35 (216)
Q 166.90 F=0 F 0.00 PE 0.00
BN T 8.00 0.1777 PF 1.42
28 220DQ 44.08 2.203 L 4.00 C=l20 PT 18.77 (220)
Q 210.98 F=T F 11. 60 PE 0.00
BN T 15.60 0.2742 PF 4.28
23 28DQ 178.96 2.703 L 0.50 C=l20 PT 23.05 28)
Q 389.93 F=T F 16.70 PE 0.22
NR T 17.20 0.3154 PF 5.42
PT 28.69 23)
------------------
203 303 1.080 L 1.08 C=l20 PT 14.01 (303)
Q 42.67 F=E F 2.30 PE 0.47
SG T 3.38 0.4588 PF 1.55
207 203 2.203 L 8.83 C=l20 PT 16.03 ( 2 03)
Q 42.67 F=0 F 0.00 PE 0.00
BN T 8.83 0.0143 PF 0.13
211 207DQ 40.76 2.203 L 8.00 C=l20 PT 16.16 (207)
Q 83.43 F=0 F 0.00 PE 0.00
BN T 8.00 0.0493 PF 0.39
215 211DQ 41. 28 2.203 L 8.00 C=l20 PT 16.55 (211)
Q 124.71 F=0 F 0.00 PE 0.00
BN T 8.00 0.1037 PF 0.83
219 215DQ 42.34 2.203 L 8.00 C=l20 PT 17.38 (215)
Q 167.06 F=0 F 0.00 PE 0.00
BN T 8.00 0.1780 PF 1.42
27 219DQ 44.12 2.203 L 4.00 C=l20 PT 18.80 (219)
Q 211. 1 7 F=T F 11.60 PE 0.00
BN T 15.60 0.2746 PF 4.28
22 27DQ 179.12 2.703 L 0.50 C=l20 PT 23.08 27)
Q 390.30 F=T F 16.70 PE 0.22
NR T 17.20 0.3160 PF 5.44
PT 28.74 22)
------------------
202 302 1.080 L 1.08 C=l20 PT 14.10 (302)
Q 42.81 F=E F 2.30 PE 0.47
SG T 3.38 0.4616 PF 1. 56
SUBMITTAL SERIAL NO:2932HY7 05-17-1999 PAGE 9
First Mechanical
overhead .45/3000
10% buffer off flow test
05/07/99
Location Flow Pipe Fittings Equiv Friction Pressure
in Size & Length Loss Summary
From To GPM IN Devices Ft PSI/Ft PSI
206 202 2.203 L 8.83 C=120 PT 16.13 (202)
Q 42.81 F=0 F 0.00 PE 0.00
BN T 8.83 0.0143 PF 0.13
210 206DQ 40.90 2.203 L 8.00 C=120 PT 16.26 (206)
Q 83.71 F=0 F 0.00 PE 0.00
BN T 8.00 0.0496 PF 0.40
214 210DQ 41.42 2.203 L 8.00 C=120 PT 16.66 ( 210)
Q 125.13 F=0 F 0.00 PE 0.00
BN T 8.00 0.1043 PF 0.83
218 214DQ 42.49 2.203 L 8.00 C=l20 PT 17.49 (214)
Q 167.62 F=0 F 0.00 PE 0.00
BN T 8.00 0.1791 PF 1.43
26 218DQ 44.26 2.203 L 4.00 C=l20 PT 18.92 (218)
Q 211.88 F=T F 11. 60 PE 0.00
BN T 15.60 0.2763 PF 4.31
21 26DQ 179.72 2.703 L 0.50 C=120 PT 23.23 26)
Q 391.60 F=T F 16.70 PE 0.22
NR T 17.20 0.3179 PF 5.47
PT 28.92 21)
------------------
201 301 1.080 L 1.08 C=120 PT 14.84 (301)
Q 43.92 F=E F 2.30 PE 0.47
SG T 3.38 0.4839 PF 1. 64
205 201 2.203 L 8.83 C=120 PT 16.95 (201)
Q 43.92 F=0 F 0.00 PE 0.00
BN T 8.83 0.0150 PF 0.13
209 205DQ 41.96 2.203 L 8.00 C=120 PT 17.08 (205)
Q 85.88 F=0 F 0.00 PE 0.00
BN T 8.00 0.0520 PF 0.42
213 209DQ 42.49 2.203 L 8.00 C=l20 PT 17.50 ( 2 0 9)
Q 128.37 F=0 F 0.00 PE 0.00
BN T 8.00 0.1094 PF 0.88
217 213DQ 43.58 2.203 L 8.00 C=120 PT 18.38 (213)
Q 171.95 F=0 F 0.00 PE 0.00
BN T 8.00 0.1878 PF 1. 50
. ' .
SUBMITTAL SERIAL NO:2932HY7 05-17-1999 PAGE 10
First Mechanical
overhead .45/3000
10% buffer off flow test
05/07/99
Location Flow Pipe Fittings Equiv Friction Pressure
in Size & Length Loss Summary
From To GPM IN Devices Ft PSI/Ft PSI
25 217DQ 45.40 2.203 L 4.00 C=120 PT 19.88 (217)
Q 217.35 F=T F 11. 60 PE 0.00
BN T 15.60 0.2897 PF 4.52
20 25DQ 143.23 2.703 L 0.50 C=120 PT 24.40 25)
Q 360.59 F=T F 16.70 PE 0.22
NR T 17.20 0.2729 PF 4.69
PT 29.31 20)
------------------
22 23 6.357 L 10.25 C=120 PT 28.69 23)
Q 389.93 F=0 F 0.00 PE 0.00
FM2 T 10.25 0.0049 PF 0.05
21 22DQ 390.30 6.357 L 10.25 C=120 PT 28.74 ( 22)
Q 780.23 F=0 F 0.00 PE 0.00
FM2 T 10.25 0.0177 PF 0.18
20 21DQ 391.60 6.357 L 10.17 C=120 PT 28.92 ( 21)
Q 1171.83 F=0 F 0.00 PE 0.00
FM2 T 10.17 0.0375 PF 0.38
11 20DQ 360.59 6.357 L 9.50 C=120 PT 29.30 ( 20)
Q 1532.42 F=E F 12.57 PE 0.00
FM2 T 22.07 0.0616 PF 1. 36
10 11 6.357 L 111.00 C=120 PT 30.66 ( 11)
Q 1532.42 F=E F 12.57 PE 0.00
FMl T 123.57 0.0616 PF 7.61
3 10 6.357 L 21.75 C=120 PT 38.27 ( 10)
Q 1532.42 F=0 F 0.00 PE 9.42
FR T 21.75 0.0616 PF 1. 34
2 3DQ 100.00 8.450 L 5.00 C=140 PT 49.03 3)
Q 1632.42 F=E F 31. 62 PE 0.00
UN T 36.62 0.0130 PF 0.48
1 2 8.044 L 10.00 C=150 PT 49.51 2)
Q 1632.42 F=E F 27.18 PE 0.00
UN T 37.18 0.0146 PF 0.54
0 1 8.044 L 60.00 C=150 PT 50.05 1)
Q 1632.42 F=T,3E,DDC/2E,EE F 202.39 PE 0.00
UN T 262.39 0.0146 PF 3.83
8" REDUCED PRESSURE DETECTOR ASSEMBLY 11.04
PT 64.92 0)