HomeMy WebLinkAbout3219 Orlando Dr (2)r1
CITY OF CANFORD
PERMIT APPLICATION •
Permit No.:_ l /3 7i� Date Ofs - ! m
L.
Job Address: 3219 OQ.�.►Cp pa•yLG. - C ��-«y,C�
051
Permit Type: Building Electrical Mechanical Plumbing ./ Fire
Description of Work: Siy Tb;.i A,MEt;zt�e A.Sa yip �p�, t;M�c
T-124LNl t ��1tt�8 �d AIT 5 PQM`(
Additional Information for Electrical & Plumbing Permits
Electrical: —Addition/Alteration _Change of Service _Temporary Pole _Nrw AMP Service (# of AMPS )
Plumbing/Residential: Addition/Alteration New Construction (One Closet Plus Additional)
Plum bing/Com mercia 1: Number of Fixtures Number of Water & Sewer Drainage Lines Number of Gas Lines
Occupancy Type: _Residential _Commercial _ Industrial Total Sq Ftg: Value of Work: s 3 0
Type of Construction: Flood Zone: Number of Stories: Number of Dwelling Units:
Parcel No.: I l - 2.0 - 30.3Cp - 04= - COOP _ (Attach .Proof of Ownership & Legal Description)
Owner/Address/Phone: ZLXJ F;00-0 1%.W. ' '
'8tt9 S. C¢LA^-XM. CPA-JIL '5A&zFtV-C , EL
Contractor/Address/Phone: f~lRO✓
Z'!OI Vtl • 5'r+1 qtr SN.iFo R. $2'1'� l State License Number: 3ffi*
Contact Person: A LAALP t Phone & Fax Number: �AW) • * •.pmt ?,4ffl ) 214 -0214-Frac
Title Holder (If other than Owner):
Address:
Bonding Company:
Address:
Mortgage Lender:
Address:
Arch itect/Engin eer
Address:
Phone No.:
Fax No.:
Application is hereby made to obtain a permit to do the work and installations as indicated. I certify that no work or installation has
commenced prior to the issuance of a permit and that all work will be performed to meet standards of all laws regulating construction
in this jurisdiction. i understand that a separate permit must be secured for ELECTRICAL WORK, PLUMBING, SIGNS, WELLS,
POOLS, FURNACES, BOILERS, HEATERS, TANKS, and AIR CONDITIONERS, etc.
OWNER'S AFFIDAVIT: I certify that all of the foregoing information is accurate and that all work will be done in compliance with
all applicable laws regulating construction and'zoning. WARNING TO OWNER: YOUR FAILURE TO RECORD A NOTICE OF
COMMENCEMENT MAY RESULT IN YOUR PAYING TWICE FOR IMPROVEMENTS TO YOUR PROPERTY. IF YOU
INTEND TO OBTAIN FINANCING, CONSULT WITH YOUR LENDER OR AN ATTORNEY BEFORE RECORDING YOUR
NOTICE OF COMMENCEMENT.
NOTICE: In addition to the requirements of this permit, there may be additional restrictions applicable to this property that may be
found in the public records of this county, and re may be additional permits required from other governmental entities such as
water management districts, state agenSiceCWfederal agencies.
of permit is veriJA&tiKSat I will notify the
4-903
Print OviwOr/Agent's
Notary -State of Florida 6 �!3
Kkn a tioNWas
•pri
AAI, CW"*WWOu§v=
k E MM NaM*W 15, 2=
%vn gent is ersonally Kn to Me or
_ Produced ID
of the regfikements of Florida Lien Law, FS 713.
C4 091a=
Date
esu
Print Co actor/Ag s N
Sign ure of Notary -State of Florida /a
KMn 6 RobMwlOa
. my C"M*00 UAW=
'* � �.t+lo�n�bartinzoos
4
tra r/Agent is Pers ally Known to Me or
oduced 1D 6� Off& 5& 640 U
APPLICATION APPROVED BY: Date: G -�
__ff''
Speeial,Conditions: �tJ p`t�.
Seminole County Property Appraiser Get Information by Parcel Number Page 1 of 2
Personal Property I Please Select Account
PARCEL DETAIL
O D
let
CPR
5cr�iank Count
c%in Kt,"j
0
IIHI E. Kim Vit.
C r
Samford h1. 32771
2003 WORKING VALUE SUMMARY
GENERAL
Value Method: Market
Parcel Id: 11-20-30-300- Tax District: S4-SANFORD 17-92
0420-0000 R E DVDST
Number of Buildings: 4
Depreciated Bldg Value: $652,366
SUNFORD INV
Owner: LLC Exemptions:
Depreciated EXFT Value: $73,687
Address: 3219 S ORLANDO DR
Land Value (Market): $1,085,808
City,State,ZipCode: SANFORD FL 32773
Land Value Ag: $0
Property Address: 3455 ORLANDO DR S SANFORD 32773
Just/Market Value: $1,811,861
Facility Name: GIBSON TRUCK WORLD
Assessed Value (SOH): $1,811,861
Dor: 27 -AUTO SALE AND SERVIC
Exempt Value: $0
Taxable Value: $1,811,861
SALES
Deed Date Book Page Amount Vaclimp
WARRANTY DEED 11/2002 04615 0353 $2,400,000 Improved
QUIT CLAIM DEED 08/1997 03288 1025 $100 Improved
QUIT CLAIM DEED 08/1997 03288 1023 $100 Improved
2002 VALUE SUMMARY
WARRANTY DEED 08/1997 03284 0716 $3,150,000 Improved
2002 Tax Bill Amount: $24,955
WARRANTY DEED 01/1985 01609 1088 $100,000 Vacant
2002 Taxable Value: $1,178,837
WARRANTY DEED 12/1984 01609 1080 $250,000 Vacant
WARRANTY DEED 02/1984 01530 0310 $260,000 Vacant
WARRANTY DEED 01/1974 01013 1593 $600,000 Improved
Find Comparable Sales within this DOR Code
LEGAL DESCRIPTION
LAND
SEC 11 TWP 20S RGE 30E BEG 161.44 FT N OF E
Land Assess Method Frontage Depth Land Units Unit Price Land Value
1/4 COR RUN S 644.82 FT N 71 DEG 3 MIN 9 SEC
SQUARE FEET 0 0 271,134 400 $1,084,536
W TO
ACREAGE 0 0 3.180 400.00 $1,272
ELY R/W N 25 DEG 30 MIN E 699.3 FT S 64 DEG
30 MIN E TO BEG (LESS RD)
BUILDING INFORMATION
Bid Year Gross Bld Est. Cost
Bid Class Fixtures Stories Ext Wall
Num Bit SF Value New
1 MASONRY 1985 7 4,740 1 WOOD SIDING WITH WOOD OR METAL $193,700 $246,752
PILAS STUDS
Subsection / Sgft CARPORT FINISHED/ 1258
Subsection / Sgft OPEN PORCH FINISHED / 2120
2 MASONRY 1985 6 11,432 1 CONCRETE BLOCK - MASONRY $313,857 $399,818
PILAS
3 MASONRY 1985 0 3,192 1 CONCRETE BLOCK - MASONRY $98,127 $125,003
PILAS
MASONRY MASONRY & GLASS PANELS - CURTAIN
http://www.scpafl.org/pis/web/re web.seminole county title9parcel=11203030004200000... 6/9/2003
Seminole County Property Appraiser Get Information by Parcel Number Page 2 of 2
4 PILAS 1985 2 714 1 ' WALLS' $46,682 $59,468
Subsection / Sgft OPEN PORCH FINISHED / 108
Subsection / Sgft CARPORT FINISHED / 1178
NOTE: Assessed values shown are NOT certified values and therefore are subject to change before being finalized for ad valorem tax
a homesteaded propertv your next vear's property tax will be based on Just/Market value.
http://www.scpafl.org/pls/web/re_web.seminole_county_title?parcel=11203030004200000... 6/9/2003
EXTRA FEATURE
Description
Year Bit
Units EXFT Value Est. Cost New
DRIVE 4 IN CONC
1985
2,575
$2,833
$5,150
ASPHALT DRIVE 2 INCH
1985
112,740
$51,466
$93,574
POLE LIGHT CONCRETE 1985
8
$1,232
$1,232
POLE LIGHT CONCRETE 1985
3
$420
$420
36 FAN
1985
2
$400
$400
CANOPY AVG COMM
1985
1,120
$4,480
$11,200
& CHAIN LINK FENCE
1985
740
$1,776
$4,440
CANOPY AVG COMM
1990
1,200
$5,760
$12,000
CANOPY AVG COMM
1997
700
$5,320
$7,000
NOTE: Assessed values shown are NOT certified values and therefore are subject to change before being finalized for ad valorem tax
a homesteaded propertv your next vear's property tax will be based on Just/Market value.
http://www.scpafl.org/pls/web/re_web.seminole_county_title?parcel=11203030004200000... 6/9/2003
CITY OF SANFORD FIRE DEPARTMENT
FEES FOR SERVICES
PHONE # 407-302-1091 * FAX #: 407-330-5677
DATE:4ZIa/3PERMIT #: 03,?/1.30
BUSINESS NAME / PROJECT: ` 7i fj S c� /! �c /l 4,,-a,4 lc�
ADDRESS: 47V //7-, d G Or
PHONE NO.:
FAX NO.:
CONST. INSP. ( ] C / O INSP.:[ ] REINSPECTION [ ] PLANS REVIEW [ ]
F. A. [ ] F.S. ,[,�]'' HOOD [ ] PAINT BOOTH BURN PERMIT
TENT PERMITTANK PERMIT [ ] OTHER [ ]
TOTAL FEES: $1-50 ] (PER UNIT SEE BELOW)
COMMENTS:
Address / Bldg. # / Unit # Sauare Footage Fees per Bldg. / Unit
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
H.
12.
13,
14,
15.
16.
17.
18.
19.
20.
Fees must be paid to Sanford Building Department, 300 N. Park Ave., Sanford, FI. 32771 Phone # -407-
330-5656. Proof of P ment must be made to Fire Prevention division before any further services can take
place. I certify that the above is true and correct and that I
will comply with all applicable codes ordinances
A , of the City of Sanford, Florida.
San ord Fire Pre ention Division Applicant's Signa re
AtAll FIRECHEKIL-
FIRE PROTECTION COMPANY "
JOC3 G1c�som -muco vuo
A QDZEE6 • 321 cl on -Al= Dv-1vE
j16-IMP09D. P:Low-%D&-
6MM►rral_ Amer -ex. saSpl,�F.s�IAL- �R-Y
s�Cs-MVA - Po-► �t-t �ooT�'►
0
2701 W. 5th Street • Sanford, FL 32771 8 (407) 324-0201 • Fax (407) 324-0214
1
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Industrial Drg Chemical
Fire Suppression System
stem
INSTALLATION, OPERATION AND MAINTENANCE
MANUAL, P/N 15040
s
s
AMEREX CORPORATION INC. - 7595 GADSDEN HIGHWAY - TRUSSVILLE, AL 35173 - February 5, 2002
•
s
•
•
Part Number 15040 System Design
Page 3A-1
CHAPTER 3
SYSTEM DESIGN
Section A: Hazard Identification, Nozzle Coverages, and Piping Limitations
General
The Amerex Industrial Fire Suppression System may be used on a variety of hazards in many types of applications.
The guidelines listed in this chapter deal with the limitations and parameters of various system configurations. It is
the responsibility of the Certified Installer to ensure that the proper system components are being utilized, and that
the system meets the limitations and parameters listed in this chapter. Before attempting to design any system, it is
necessary to attend a Factory Certification Training Class and become certified to install Amerex Industrial Fire
Suppression Systems. Amerex will not be responsible for system design, installation, or maintenance performed by
' any non -certified person(s).
ABC Dry Chemical
It is necessary for the system designer to consider the combustible material found in the hazard area to ensure
proper protection. The agent used in the Amerex Industrial System is suitable for Class A, B, and C hazards. The
following are the hazard class definitions:
"A" Class : Qrdinary solid carbonaceous combustibles. These include wood, paper, cloth, fiberglass, and plastics.
"B" Class - Flammable liquids and gases. These include paints, solvents, gasoline, oils, and hydraulic fluids.
"C" Class - Electrical appliances. These include computers, power generators, and power transformers.
ABC (monoammonium phosphate -based) is suitable for use with all "A", "B", and "C" Class hazards. Dry Chemical
` Type extinguishing systems are inappropriate for the protection of Class D hazards. As per NFPA 17, pre-
engineered dry chemical systems are not approved for deep-seated or burrowing fires (such as ordinary
combustibles, where the agent cannot reach the point of combustion), or on chemicals that contain their own oxygen
supply (such as cellulose nitrate). Do not mix different types of agents, or agents from different manufacturers.
Chemical reactions may occur when incompatible chemicals are mixed. Keep in mind that the agent used for each
system must be acceptable to the Authority Having Jurisdiction (AHJ).
Choosing the Proper Type of System
It is necessary for the system designer to consider the physical characteristics and layout of the hazard area to
ensure proper protection. The hazard area must meet the criteria for a particular system for that system to be
effective. The hazard area must be protected in accordance with NFPA 17 for proper protection. The following
guidelines are used to determine the proper system for a hazard:
Local Application — Overhead — This system is used for applying agent to an area from above the area. ,.Typical
applications include dip tanks, power generators, and transformers. The maximum nozzle height for overhead
i protection is 10 feet.
Local Application — Tankside — This system is used for applying agent across a hazard area from the side of the
area. Typical applications include, but are not limited to, dip tanks, quench tanks, and solvent tanks where overhead
obstructions are present.
Total Flooding — This system is used to fill a volume with agent to protect any hazard within that volume. Typical
applications include hazardous storage containers and warehouses where sprinkler protection is unavailable. Total
flooding systems require a fixed enclosure to be present around the hazard area to allow the system to build up the
proper concentration of agent within the hazard area. Whether an enclosure is suitable for allowing total flooding
protection depends on the unclosable opening percentage of the enclosure. Unclosable opening percentage is
calculated as the area of the opening divided by the total area of the sides, top and bottom of the enclosure. Total
® flooding protection is qualified for use on hazards whose enclosure has up to 5% unclosable opening. For
enclosures that have greater than 5% unclosable opening, total flooding protection is not qualified. Use Local
e Application Overhead for these hazards.
UL EX 5208
February 5, 2002
�i
Part Number 15040
Total Flood:
System Design
a) Cylinders:
The Model ISI8ABC and IS35ABC can be used for Total Flooding applications.
Page 3A-6
b) Nozzles:
The Total Flood Nozzle, (PIN 16172) is used for both the 181b. and 351b. ABC cylinders. The IS18 cylinder
supports one Total Flood Nozzle. The IS35 cylinder supports two Total Flood Nozzles.
c) Nozzle Coverages:
Volume: 1,440 ft.' per nozzle
Maximum Area: 120 ft.Z per nozzle
Maximum Height: 20 ft.
Maximum Side length: 15 ft.
(See chart below for height vs. area restrictions)
Note: Amerex Industrial Dry Chemical Systems have not been evaluated by Underwriters Laboratories, Inc.
with respect to the total flood. protection of hazards incorporating uncloseable openings exceeding 5% of the
total hazard surface area.
d) Temperature Range:
The operating temperature range for Total Flood applications is
-40°F to 120°F (40°C to 49°C).
e) Piping Requirements:
Piping diagrams include limitations on pipe length and fittings. System piping must be balanced. Balanced
piping is that in which the difference between the shortest actual pipe length from any %" TEE to nozzle and the
longest actual pipe length from any W TEE to nozzle does not exceed 10% of the longest actual pipe length
from any 3/:' TEE to nozzle. The number and type of fittings for all TEE to nozzle sections must be equal.
All piping must be Schedule 40, hot -dipped galvanized steel pipe, and all fittings must be 1501b. class.
Examples of acceptable fitting materials include hot -dipped galvanized malleable iron, ductile iron, or steel.
Couplings and unions may be used where necessary, and reducing bushings or reducing tees can be used for
changes in pipe diameter. Note: Black steel pipe and fittings can be used in relatively noncorrosive
atmospheres.
UL EX 5208
February 5, 2002
C
Maximum Coverage Per Nozzle
Hazard Height (ft.)
12 or less
13
Longest Side (ft.) Area (ft.)
15 120
15 110.7
Volume (ft. )
1440
1440
14
15 102.8
1440
15
1 15 96
1440
16
1 15 90 '
1440
17
15 84.7
1440
18
15 80
1440
19
.15 75.8
1440
20
15 72
1440
Note: Amerex Industrial Dry Chemical Systems have not been evaluated by Underwriters Laboratories, Inc.
with respect to the total flood. protection of hazards incorporating uncloseable openings exceeding 5% of the
total hazard surface area.
d) Temperature Range:
The operating temperature range for Total Flood applications is
-40°F to 120°F (40°C to 49°C).
e) Piping Requirements:
Piping diagrams include limitations on pipe length and fittings. System piping must be balanced. Balanced
piping is that in which the difference between the shortest actual pipe length from any %" TEE to nozzle and the
longest actual pipe length from any W TEE to nozzle does not exceed 10% of the longest actual pipe length
from any 3/:' TEE to nozzle. The number and type of fittings for all TEE to nozzle sections must be equal.
All piping must be Schedule 40, hot -dipped galvanized steel pipe, and all fittings must be 1501b. class.
Examples of acceptable fitting materials include hot -dipped galvanized malleable iron, ductile iron, or steel.
Couplings and unions may be used where necessary, and reducing bushings or reducing tees can be used for
changes in pipe diameter. Note: Black steel pipe and fittings can be used in relatively noncorrosive
atmospheres.
UL EX 5208
February 5, 2002
C
Part Number 15040 System Design
Page 3A-7
f) Nozzle Placement:
The Total Flood Nozzle has been developed to provide application of extinguishing agent from an overhead
position. The nozzle is to be mounted in the center of the protected area, with the tip of the nozzle no greater
than six (6) inches from the ceiling. Proper nozzle placement is shown below:
KV Nozzle
I I
i,E;GN7
I li
NI
/y
\ I /
\
\ I ._\Gi4
N!�TM /
UL EX 5208
February 5, 2002
i
Part Number 15040 System Design
TATA! C! n^mKin IC40ARr CIMr-'I P Wn771 P,
e
Page 3A-8
The maximum nozzle height above the agent cynnuer is zu teet.
UL EX 5208
February 5, 2002
Pipe Size, in
Maximum
Length, ft
Maximum
# of Elbows
# of Tees
Allowed
3/4
60
8
0
Cylinder to
Nozzle
60
1
Total 3/." Pi e
The maximum nozzle height above the agent cynnuer is zu teet.
UL EX 5208
February 5, 2002
I
1
1
1
1
1
I
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Part Number 15040 System Design Page 3A-9
TOTAL FLOnDING_ IS35ABC-
The maximum nozzle height above the agent cylinder is 20 feet.
zie
UL EX 5208
February 5, 2002
Maximum
Maximum
# of Tees
Pipe Size, in
Length, ft
# of Elbows
Allowed
3/4
45
7
1
Cylinder to T 1
3/4
15
4
0
T 1 to Nozzle
75
Total'/." Pi e
The maximum nozzle height above the agent cylinder is 20 feet.
zie
UL EX 5208
February 5, 2002
Part Number 15040 System Design Page 3A-10
Vehicle Paint Spray Booths:
The Amerex Vehicle Paint Spray Booth Fire Suppression System is of the pre-engineered type as defined by the
NFPA Standard for Dry Chemical Extinguishing Systems, NFPA-17. The extinguishing systems described in this
manual are intended to be installed, maintained, and serviced in accordance with NFPA-17. The Amerex Vehicle
Paint Spray Booth System has been evaluated by Underwriters Laboratories (UL) in accordance with the specific
test protocol found in the UL1254 Standard (Pre-engineered Dry Chemical System Units).
Used for painting or coating cars, trucks, buses and large mobile equipment, Vehicle Paint Spray Booths come in
a variety of configurations and sizes. The basic volumes of a Vehicle Paint Spray Booth to be protected by the
Amerex System consists of three main components. They are:
1) Work Area - Where the vehicle is painted.
2) Plenum(s) — Exhaust chambers adjacent to the Work Area. Plenums utilize filters to trap overspray,particles
that escape from the Work Area. The primary purpose of the plenum is to expose a sufficiently large area of
filter media to the overspray that is carried along in a smooth current of air.
3) Duct(s) - Fan -powered air channels that draw air through the Work Area, the Plenum(s), and finally out
through the Duct.
Most of the time, the air is drawn downward over the vehicle during the painting process (as in either an Under
Floor, Pit, or Down Draft (Side -Exhaust) configuration. Other booths, such as a Back Draft or Pant -Leg (Horseshoe)
design, draw air down and across, toward the rear of the booth. Fresh air is usually drawn in through intake filters
either in the Work Area ceiling or on the upper walls of the Work Area. Many installations utilize a Heated Make -Up
/ Recirculation option, which re -circulates filtered, heated air through the booth, thereby being more energy efficient.
The Amerex Vehicle Paint Spray Booth System requires that the booth exhaust fan(s) be shut down prior to the
discharge of the ABC dry chemical. This is accomplished with the use of the Mechanical Time Delay (p/n 15765)
with mechanically -released systems, or by the use of the Amerex Electric Control Panel (p/n 15780) with the use of
the timed discharge circuit. It is the responsibility of the installer to properly identify the configuration of the booth
and to follow the requirements of this manual in order to achieve proper fire suppression. Sometimes, additional
turns, baffles, or obstructions in the booth's plenum and duct may dictate the use of additional nozzles in order to )a„
ensure good distribution of dry chemical. 140
a) Cylinders:
The Model ISI8ABC, IS35ABC, and IS45ABC can be used for Vehicle Paint Spray Booth applications. The
IS18 and IS 35 models are used for Duct and Plenum coverage, using either the DP, TF -ABC, or 3 -Way
nozzles. The 1545 model must always use four TF -ABC nozzles (p/n 16172) for Booth Work Area coverage.
b) Nozzles: P/N: Application:
TF -ABC 16172 Work Area; Backdraft / Pantleg / Underfloor Plenum
3 -Way 16174 Pit w/ Tunnel (center -mount); Downdraft Plenum with or without Vertical Transition (center -
mount)
D/P 16190 Exhaust Duct; Pit Plenum (end-postion)
c) Nozzle Coverages:
1) Work Area:
The Amerex Vehicle Paint Spray Booth System is flexible enough to protect a wide variety of Vehicle Booths
of various dimensions. The maximum booth height is 234". As noted, the IS45 cylinder is always used with four
nozzles, and each of the four nozzles has been tested to protect a Work Area Module. A Work Area can be
thought of as a series of 'boxes', or Modules, stacked together, each protected with a nozzle. The maximum
parameters for each Module are given below:
Module Volume: 1,050 ft.3 per nozzle
Maximum Module Area: 105 ft.Z per nozzle for booths up to 10 ft. in height; 45 ft.Z for booths up to 23 ft., 4
in. in height.
Maximum Module Height: 23 ft., 4 in.
Maximum Module Side Length: 14 ft. for booths up to 10 ft. tall (15for Booth Centerline Option)
9 ft for booths from 10 ft. to 23'4" tall
UL EX 5208
February 5, 2002
i
i
ilwA
Part Number 15040
1) Work Area: (continued)
System Design
Page 3A-11 ,
Maximum Nozzle Offset - Module Center Entry: Within a 2.5 ft. radius semicircle from center of module, no
less than 12" from any side of the module (booth); the curved portion of the semicircle must curve away from
the centerline of the booth; the tip of the nozzle within 6" of ceiling.
Maximum Nozzle Offset - Booth Edge Entry: Entry into the module at the closest point to the intersection of
the booth wall and ceiling. The nozzle location, horizontally, is at the midpoint of the longest side of the
module, +/- 2 feet. The tip of the nozzle must be within 6" of its entry point. This option is allowable
only for booths 10 feet or less in height.
Maximum Nozzle Offset - Booth Centerline Entry: This option is available where nozzle entiy is only
possible along the centerline of the booth ceiling. Maximum booth height for this option is 10 feet.
This installation configuration allows for a maximum module side length of 15', which is the width of the
Work Area, in this case. There is no allowable nozzle offset for this option. The first and fourth nozzles
are to be located at 12" from the front and back of the booth, respectively. The second and third
nozzles are to be spaced equally between the first and fourth nozzles. The tip of the nozzle must be
within 6" of the ceiling.
UL EX 5208
February 5, 2002
Maximum Nozzle Spacing
Module Length),
Feet
Booth Width, Inside, Feet;
Number of Nozzles Across Width of Booth
Booth
Height,
Inside,
Feet
15 2
16;(2)
17 2
18 2
19; 4
20 4
21 4
22; 4
23; 4
24; 4
10 14 - - - _ - - -
11 9 9 9 9 9 9 9 9 9
9
12 9 9 9 9 9 9 9 9 9
9
13 9 9 9 8.97 9 9 9 9 9
9
14 9 9 8.82 8.33 9 9 9 9 9
9
15 9 8.75 8.23 7.77 9 9 9 9 9
9
16 8.75 8.2 7.72 7.29 9 9 9 9 9
9
16.5 8.48 7.95 7.48 7.07 9 9 9 9 9
9
17 8.23 7.72' 7.26 6.86 9 9 9 9 9
9
17.5 8 7.5 7.05 6.67 9 9 9 9 9
9
18 7.77 7.29 1 6.86 6.48 9 9 9 9 9
9
18.5 7.56 7.09 6.67 6.3 9 9 9 9 9
91
19 7.36 6.9 6.5 6.14 9 9 9 9 9
9
19.5 7.17 6.73 6.33 5.98 9 9 9 9 9
8.97
20 7 6.56 6.17 5.83 9 9 9 9 9
8.75
20.5 6.82 6.4 6.02 5.69 9 9 9 9 8.9
8.53
21 6.67 6.25 5.88 5.55 9 9 9 9 8.69
8.33
21.5 6.51 6.1 5.74 5.42 9 9 9 8.87 8.49
8.13
22 6.36 5.96 5.61 5.3 9 9 9 8.67 8.3
7.95
22.5 ' 6.22 1 5.83 5.49 5.18 9 9 1 8.88 8.48 8.11
7.77
23 6.08 5.7 5.37 5.07 9 9 8.69 8.3 7.93
7.6
23.33 6 5.62 5.29 5 9 9 8.57 8.18 7.82
7.5
UL EX 5208
February 5, 2002
Part Number 15040 System Design Page 3A-12
When determining how the Work Area of the Vehicle Paint Spray Booth is to be protected, the following information
must be established, based on the total width, length and height of the Work Area:,,
s
Is Booth Height (Inside) Less Than or
Equal to 10 Feet?
Yes No
Use One IS45 for Booths with up to 420 Is Booth Width (Inside) Greater Than 10
Square Feet of Floor Area, Use Four feet, But Less Than or Equal to 18 Feet?
Modules with Maximum Dimensions of:
7.5' x 14' x 10' tall
Yes
\No
Use Two Nozzles Across Width of Booth.
Module Width = Booth Width + 2
Maximum Module Length = 1050 + (Booth Height x Module Width); the
resulting value NOT to exceed 9'
Number of Modules, Lengthwise = Booth Length + Max. Module Length
(round up to nearest EVEN number)
Actual Module Length = Booth Length + Number of Modules, Lengthwise
Number of IS45ABC Cylinders = Number of Modules, Lengthwise + 2
Number of Nozzles = Number of IS45ABC Cylinders x 4
Yes
AYX
Use Four Nozzles Across Width of Booth.
Module Width = Booth Width + 4
Maximum Module Length = 1050 + (Booth Height x Module Width); the j
resulting value NOT to exceed 9'
j Number of Modules, Lengthwise = Booth Length + Max. Module Length
' (round up to nearest whole number)
j Actual Module Length = Booth Length + Number of Modules, Lengthwise;
NOT to Exceed 9 Feet. I
Number of IS45ABC Cylinders = Number of Modules, Lengthwise
Number of Nozzles = Number of IS45ABC Cylinders x 4
Is Booth Width (Inside) Greater Than
18 feet, But Less Than or Equal to 36
Feet?
i
1Wto
i
No
1
I Contact Amerex Engineering
for Assistance
All module lengths must be the same. Always round UP to calculate the number of IS45 cylinders required.
4 -
UL EX 5208
February 5, 2002
Part Number 15040 System Design Page 3A-13
'Example 1: a booth of dimensions 15' wide x 10' tall x 28' long
Module Dimensions: 7.5'x 14'x 10' tall;
Use one IS45 with four nozzles, centered on each module (Module Center Entry shown).
10' = Ht
I
1
\
15 j
= Width
UL EX 5208
February 5, 2002
Part Number: 15040 System Design Page 3A-14
**Example) 2: a booth of dimensions 18' wide x 18' tall x 56' long (Module Center Entry, only)
Module Width = 18'+ 2 = 9' wide; two nozzles across width of booth.
Maximum Module Length = 1050 + (18'x 9') = 6.48' long.
Number of Modules, Lengthwise = Booth Length + Max. Module Length = 8.64. Round up to the nearest EVEN
number = 10 Modules, Lengthwise
Actual Module Length = Booth Length + Number of Modules, Lengthwise = 56'+ 10 = 5.6' long, actual
Number of IS45ABC Cylinders = 10 + 2 = 5 Cylinders required
Number of Nozzles = 5 x 4 = 20 Nozzles required
***Example 3: a booth of dimensions 20' wide x 20' tall x 60' long (Module Center Entry, only)
Module Width = 20'-,- 4 = 5'wide; four nozzles across width of booth.
Maximum Module Length = 1050 + (20'x 5') = 10.5' long; however, the maximum module length for booths
above 10' in height is 9 feet
Number of Modules, Lengthwise.= 60'+ 9'= 6.67 modules in length; therefore round up to 7.
Actual Module Length = 60'-1- 7 = 8.57'
Number of IS45ABC Cylinders = 7
Number of Nozzles = 7 x 4 = 28
UL EX 5208
February 5, 2002
Pm�-_
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
i
1
1
1
1
1
Part Number 15040 System Design Page 3A-15
C) Nozzle Coverages (continued)
21 Plenum,.; -
Plenum Type
Nozzle
Dimensions
Maximum
Nozzle
Nozzle
Nozzle
Used
Per Nozzle
Specifications
Location
Offset*
Orientation
LxWxH
Backdraft
TF -ABC
4'x 15'x 10'
Volume = 600ft
12" x 12"
0" to 6"
Vertical, Pointing
Area = 60ft2
Square,
Downward
Side = 15'
Centered at
Ceiling
Backdraft (Oversize)
TF -ABC
4'x 9'x 18'
Volume = 648ft
12" x 12"
0" to 6" "'Vertical,
Pointing
Area = 36ft2
Square,
Downward
Side = 9'
Centered at
ceiling
I�
Pantleg
TF -ABC
4'x 15'x 12'
Volume = 720ft
12" x 12"
0" to 6"
Vertical, Pointing
(Pantleg width
Area = 60ft2
Square,
Downward
�i
dimensions:
Side = 15'
Centered at
1' minimum to
Ceiling
T maximum)
Pit (Option 1)
3 -Way
24' x 4' x 4'
Volume = 384ft
Centered,
0" to 6"
Vertical, Pointing
Area = 96ft2
Length, Width,
Downward; Two
Side = 24'
and Height of
Opposite Side
Plenum
Holes Parallel to
Longest Side
Pit (Option 2)
D/P
24' x 4' x 4'
Volume = 384ft
End,
0" to 6"
Horizontal
Area = 96ft2
Centered
O
Side = 24'
Pit with Tunnel
3 -Way
Pit: 24' x 4' x 4'
Volume = 576ft
Centered
Yz Pit
Vertical, Pointing
(Tunnel at Mid -Point
Tunnel:
Area = 144ft2
Vertically;
Height
Downward; Each
of Pit
12'x4'x4'
Side = 24'
Centered,
Side Hole
Length of Pit;
Aligned Parallel
12" From Start
with Rit and
of Tunnel
Tunnel Sections
Downdraft, Side
3 -Way
Plenum:
Volume = 640ft
Centered,
--
Horizontal, Each
Exhaust With Vertical
24' x 4' x' 4'
Area = 96ft2
Length of
Side Hole
Transition (at
Transition:
Side = 24'
Plenum;
Aligned Parallel
midpoint)
4' x 4' x 16' tall
Centered,
with Pl,gnum and
®�
Width of
Transition
i
Plenum;
Sections
Centered, Height
of Plenum
Under Floor
TF -ABC
14' x 15' x 1'
Volume = 210ft
Side -Entry;
0" to 6"
Horizontal
Area = 210ft2
Centered,
<>
Side = 15'
Vertically;
Centered,
Len thwise ±6"
=Nozzle Uttset is the maximum distance trom the tip of the nozzle to the nearest edge of the protected zone.
UL EX 5208
February 5, 2002
Part Number 15040 System Design Page 3A-16
c) Nozzle Coverages (continued)
3) Ducts
The D/P Nozzle will protect either round or rectangular ducts up to 28 feet in length. Any change in duct
direction or additional length requires an additional D/P nozzle. The duct nozzle must be centered at the duct
entrance, pointed in the direction of air flow. The tip of the duct nozzle must be within 6" of the duct entrance.
Round Ducts
Maximum Diameter = 46 Inches
Rectangular Ducts
The following table shows sample maximum rectangular dimensions, based on the followirp-two requirements:
Maximum Perimeter = 144.5 Inches
Maximum Diagonal = 46 Inches
Rectangular Ducts
Side 1, Inches
Side 2, Inches,
Maximum
12
44.4
14
43.8
16
43.1
18
42.3
20
41.4
22
40.4
24
39.2
26
37.9
28
36.5
30
34.8
32
33.0
32.5
32.5
34
31.0
36
28.6
38
25.9
40
22.7
42
18.7
44
13.4
d) Temperature Range:
The operating temperature range for Vehicle Paint Spray Booth applications is
-20°F to 120°F (-29°C to 490C). ,
e) Piping Reguirements:
Piping diagrams include limitations on pipe length and fittings. System piping must be balanced. Balanced
piping is that in which the difference between the shortest actual pipe length from any %" TEE to nozzle and the
longest actual pipe length from any W TEE to nozzle does not exceed 10% of the longest actual pipe length
from any W TEE to nozzle. Piping runs from the 1" TEE to each of the W TEE's must be equal in length. The
number and type of fittings for all TEE to nozzle sections must be equal.
All piping must be Schedule 40, hot -dipped galvanized steel pipe, and all fittings must be 150 Ib. class,
minimum. Examples of acceptable fitting materials include hot -dipped galvanized malleable iron, ductile iron, or
steel. Couplings and unions may be used where necessary, and reducing bushings or reducing tees can be
used for changes in pipe diameter. Note: Black steel pipe and fittings can be used in relatively noncorrosive
atmospheres.
UL EX 5208
February 5, 2002
Part Number 15040
System Design
Page 3A-17
w_e_. e+_.v__ e%__a— IOwewoi► RA -.4..I- 9' -mfsw Cr%fr%i f1r%4inn Pnrnr Nn7710e-
•6111{.IG 1 Q...W
Cylinder
V .-
Nozzle
v—.. �. v..•... v-. .� .�. .��
Nozzle Type
...�... �_� ______.
Piping
____.
_ _ _
Maximum
Maximu
Size
Quantity
Section
Pipe
Length, ft.
m
Size, in.
# of
Elbows
4
TF -ABC
Cylinder
1
30
4
IS45ABC
to T1
TI to T2
3/4
9
2
T2 to
3/4
9
2
Nozzle
The maximum nozzle height above the agent cylinder is 23', 4".
UL EX 5208
February 5, 2002
.Z�
Part Number 15040 System Design
BOOTH EDGE
Page 3A-18
Vohii+In P2in• Cn►zav Rnn4h Wnr4 Arne ICA CARP 12^^Ok CA-- C-6— A..ai..., c...... \I..��i... .
Cylinder
Nozzle
Nozzle Type
Piping
Maximum`
Maximum
Size
Quantity
Section
Pipe
Length, ft.
# of Elbows
Size, in.
4
TF -ABC
Cylinder
1
20
5
IS45ABC
to T1
TI to T2
3/4
10
2
T2 to
3/4
9
2-90 deg. +
Nozzle
1-45 deg.*
'A 45 degree elbow must be used at the nozzle to point it downward and toward the centerline of the booth Work
Area. The nozzle must enter at the closest point to the intersection of the booth wall and the ceiling, and the tip of
the nozzle must be within 6 inches of its entry point. The Edge Entry Option is only allowable on booths with a
maximum height of 10 feet. The maximum nozzle height above the agent cylinder is 10 feet.
N
UL EX 5208
February 5, 2002
2
Part Number 15040 System Design Page 3A-19
Vehicle Paint S ra Booth Work Area IS45ABC Booth Centerline Ent O tion Four Nozzles:
Cylinder
Nozzle
Nozzle Type
Piping
Maximum
Maximum
Size
Quantity
Section
Pipe
Length, ft.
# of Elbows
Size, in.
4
TF -ABC
Cylinder
1
20
5
IS45ABC
to T1
T1 to T2
3/q
9
1
T2 to
3/4
8.5
2
Nozzle
Note: The maximum Work Area dimensions for this option are: 15' wide x 28' long x 10' tall. The Booth Centerline
Entry Option is only allowable on booths with a maximum height of 10 feet. The maximum nozzle height above the
agent cylinder is 10 feet.
UL EX 5208
February 5, 2002
qit
Part Number 15040 System Design
Page 3A-21
VEHICLE PAINT SPRAY BOOTH_ PIT_ PLENUM AND DUCT_ ISI8ABC_ SINGLE NO7J_LE
Cylinder
Nozzle
Nozzle Type
Piping
Maximum
Maximu
Size
Quantity
Section
Pipe
Length, ft.
in
Size, in.
# of
Elbows"
D/P or 3 -WAY
Cylinder
3/4
40
5
ISI8ABC
1
to
Nozzle
The maximum elevation of the D/P or 3 -way nozzle above cylinder is 23'4".
UL EX 5208
February 5, 2002
Part Number 15040 System Design
Page 3A-22
zle
wouit%1 C DAIIJT QDDAV Mr%nru DIT DI CLAIM AAIn 1111PT IC4RARf_ TWn Mn771 F -
Cylinder
Nozzle
Nozzle Type
Piping
Maximum
Maximum
Size
Quantity
Section
Pipe
Length, ft.
# of
Size,
Elbows
in.
Any of the following
Cylinder
3/q
36
4
ISI8ABC
2
combinations:
to T1
\
- one 3 -Way and one DIP;
- two D/P's;
- two TF -ABC's;
- one TF -ABC and one DIP .
TI to
3/4
16
3
Nozzle
The maximum elevation of the DIP, TF -ABC and 3 -way nozzles above cylinder is 23'4".
UL EX 5208
February 5, 2002
Part Number 15040 System Design Page 3A-23
zle 3
• "•
VEHICLE PAINT SPRAY BOOTH, PIT, PLENUM AND DUCT (NOT FOR WORK AREA),
IS35ABC. 3 NOZZLE:
Cylinder
Nozzle
Nozzle Type
Piping
Maximum
Maximum
Size
Qty.
Section
Pipe
Length, ft.
# of
Size, in.
Elbows
Any of the following four
Cylinder to
1
12
3
combinations:
IS35ABC
3
T1
-N1: 3 -Way
-N2 / N3: D/P
or
-NI: D/P*
-N2 / N3: TF -ABC
or
-N1 / 92 / N3:.D/P
or
-N 1 / N3: D/P
-N2: TF -ABC
TI to T2
1
8
2
T1 to N1
3/4
14
3
T2 to N2/N3
%
8
3
The maximum elevation of the D/P, TF -ABC and 3 -way nozzles above cylinder is 23'4".
UL EX 5208
February 5, 2002
Part Number 15040 System Design Page 3A-24
VEHICLE PAINT SPRAY BOOTH PIT PLENUM AND DUCT (NOT FOR WORK AREA),
Z1.
lb"Aes�
Cylinder
rvuR IN
Nozzle
Nozzle Type
Piping
Maximum
Maximum
Size
Qty-
Section
Pipe
Length, ft.
# of
Size,
Elbows
in.
`
- two TF -ABC's and two D/P's
Cylinder
1
30
4
IS35ABC
4
- four TF -ABC's
to T1
- four D/P's
TI to T2
3/4
9
2
T2 to3/a
9
2
Nozzle
.,
.,,
The maximum elevation of the DIF ana i r-Atst- nozzies aovvc Uyiii,uci LZI T
UL EX 5208
February 5, 2002
I
P
4
G,�, S,-�
PERMIT #_n -
ADDRESS
DATE �-bj-n
CONTRACTOR
PH # �� � �JZ��Z� � FAX #
DESCPRITION OF REVISION:
UTILITIES
FIRE zl*- 5e,-,
BLDG i/