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Specifications • % • PLEIIUM DUCT Booth Dimensions: IIV DP2 265(14'x8' • ? w 1u p ) 1 .. Plenum: (DOWtIj _l :�'x14'x8' is I Duct: IIV P1 1 26" DiameterX 17' Tall • System OF TIGARD 314" 1?fI, Ma Approved • 17 , Pyro them Conditionally Approved [ ] �-- �__---- •---- _- '--- _ -..._ ---- - - - - -- � a l. See Letter to: Follow [ ] IIV WA + IIV WA I 70 a' Attached System to be installed 19trmit Nu ben Ivr United Fire and Safety Ad. to ' - 4 4611 IIE MLK Jr Blvd B CM Date: __ EMP Portland. OR 97211 (503) 249 -0771 Contact: Ed Wallace CC86S290 1.. ,F �� „, i _- -- -- Metro a 3093 f Clip N System to be installed at: Id Barrier Corporation 9908 Sw Tigard St. Tigard. OR 97223 Contact: Bryce Bowsher 503 -639 -4192 Control Head IIV WA 314 IIV WA • Manual Pull Station 14' e Chapter 3 — System Design 'Page 3 -1 REV. 3 CHAPTER III SYSTEM DESIGN General Designing the Proper Type of System PYRO -CHEM Industrial Vehicle Paint Spray Booth Fire Suppression System has been designed and tested for use It is necessary for the system designer to consider the in commercial vehicle paint spray booth applications. The physical characteristics and layout of the.hazard area to guidelines listed in this chapter deal with the limitations and ensure proper protection. The hazard area must meet the parameters of various system configurations. It is the criteria for a particular system for that system to be effec- responsibility of the Certified installer to ensure that the tive. Each nozzle is tested and designed to protect a certain proper system design is being utilized, and that the system part of the total hazard area. meets the limitations and parameters listed in this chapter. Before attempting to design any system, it is necessary to In order to comply with the approval requirements of UL attend a Factory Certification Training Class and become 1254 Standard, when protecting a Vehicle Paint Spray Certified to install PYRO -CHEM Industrial Vehicle Paint Booth, no unclosable openings are allowed. Spray Booth Fire Suppression Systems. The system must also contain a discharge time delay. Choosing the Proper Agent The ventilation system must be shut down before the It is necessary for the system designer to consider the com- discharge of the system. bustible material found in the hazard area to ensure proper protection. The agent used in the system must be approved Total Flooding for the hazard class of the combustible material. The follow- ing are the hazard classes: a. Cylinders: "A" Class — Ordinary solid carbonaceous combustibles. The Models PCI- 15ABC, PCI- 17ABC, PCI- 25sABC, PCI - These include wood, paper, cloth, fiberglass, and plastics 35ABC, and PCI -70ABC cylinders can be used for total . flooding vehicle paint spray booth applications. "B" Class — Flammable liquids and gases. These include paints, solvents, gasoline, oils, and hydraulic fluids. b. Nozzles: "C" Class — Electrical appliances. These include comput- 'Seven nozzles are available for use in protecting vehicle ers, power generators, and power transformers. paint spray booths: "D" Class — Combustible metals such as sodium, potassi- Nozzle Application um, magnesium, titanium, and zirconium. The PYRO -CHEM NV -WA Work Area/Plenum /Pit (Overhead Position) Industrial Vehicle Paint Spray Booth Fire Suppression NV -SW Work Area /Plenum /Pit (Sidewall Position) System is not intended to protect Class D hazards. NV -P1 Backdraft/Pit (Overhead Position) The following guidelines should be used for determining the NV OF Under Floor (Overhead Position) NV -DP2 Pit /Duct (End Position — Horizontal) proper agent: N -DCT Duct Only* ABC (monoammonium phosphate - based)- for use with • N -PLU Three Way Nozzle (Pits, Plenums, Under Floor Trenches) all "A," "B," and "C" Class hazards. • Can be used with PCI -15ABC and PCI- 25sABC cylinders only As per NFPA 17, pre- engineered dry chemical systems are not approved for deep- seated or burrowing fires (such as C. Temperature Range: ordinary combustibles where the agent cannot reach the The operating temperature range for vehicle paint booth point of combustion), or on chemicals that contain their own applications is 32 °F. to 120 °F: (0 °C. to 48 °C.). oxygen supply (such as cellulose nitrate): Do not mix differ- ent types of agents, or agents from different manufacturers. d. Piping Requirements: Chemical reactions may occur when incompatible chemicals Piping diagrams include limitations on pipe length and fit - are mixed. Keep in mind that the agent must be accept- tings. See the following pages for specific piping design and able to the Authority Having Jurisdiction. limitations for each size cylinder. • ULEX 3437 CEx732 September 1, 2006 1 A Chapter 3 - System Design Page 3 -2 REV. 3 d. Piping Requirements: (Continued) , ,: -� '+ ►Note: All listed piping diagrams represent maximum number ...' �� of nozzles allowed. In applications that do not require the f ,, I r:• 4 maximum number of no the quantity of nozzles Can be ► e ,i ^` ° reduced. ` -. ! �` , In applications of this type, along with the already listed lim- ryq t . 't' itations (notes included with each maximum layout), the fol- � e lowing limitations apply: • On the reduced nozzle side of the piping layout, the •' '`•, largest listed size pipe on the standard configuration lay - , I out must be utilized from T1 to nozzle. '` ` • The maximum length of the reduced nozzle side must be ° 1 'R Sy` .d " :r`+, the original combination from T1 to T2, and T2 to nozzle.. 1 ;..... .'` Side Note: In systems utilizing a T3 split, the maximum length of the reduced nozzle side must be the original combina- tion from T1 to T2, T2 to T3, and T3 to nozzle. Figure 3 -2. Sidewall Nozzle Location 002866bPC - • The maximum number of elbows must be the original combination from T1 to T2, and T2 to nozzle. Note: In Note: See Design Chart for allowable offset of nozzles from systems utilizing a T3 split, the maximum number of center of each hazard area. elbows must be the original combination from T1 to T2, T2 ► to T3, and T3 to nozzle. \ 4 1 . i_ 12 FT. ' e. Nozzle Placement: NV -Sw MAX. (PER "" NOZZLE NOZZLE The nozzle is to be mounted in the center (See Note) of the 6M LEVEL) protected area, with the discharge holes in the nozzle no greater than six (6) inches from the ceiling. For duct protec- tion, the nozzle is to be mounted in the center. See Figure 40 t 3 -1. 12 FT. MAX. "7 - 0 .. .. 41 I I s 12 FT. MAX. �� F' / '4 ' .. 0080]5 Figure 3 -2a. , Height ` r, f. Duct Nozzle Placement: 1. The maximum duct perimeter is 12 ft. (3.7 m). See Figure 3 -2b. Note: Longest side of a square or rectangular cannot exceed 36 in. (91 cm). _1 ... ROUND DUCT SQUARE /RECTANGULAR DUCT • Side 1 Side 2 , W 4, ,,,,,i ., Figure 3 -1. Nozzle Location 0028665PC For sidewall application, the nozzle is to be mounted no 461N. (117 cm) PERIMETER = TOTAL OF MAXIMUM 4 SIDES greater than six (6) inches from both the ceiling and wall (see Note) with the arrow pointing towards the center of the Fig -2b. protected area. See Figure 3 -2. ► ULEX 3437 CEx732 September 1, 2006 Chapter 3 - System Design Page 3 -3 REV. 3 f. Duct Nozzle Placement: (Continued) •2. UL 1254 Paragraph 28.2.6 states: "The duct length and • • elevation shall be the maximum specified by the manufactur- er for protection by a single nozzle and shall also have the • maximum number of changes in direction (turns) specified by the manufacturer. Longer lengths of duct and greater number of changes in direction are to be protected using additional duct nozzles." PYRO -CHEM duct nozzles have not been UL tested'to cover any turns in direction in the duct line. The use of 90 and multiple 45° changes that results in a vertical to horizontal change of direction constitutes additional nozzle coverage and dry chemical agent. The nozzle must be centered in the duct and aimed in the direction of the airflow. Protection is also required before and after obstructions such as fans or dampers in the duct line. If a fan or damper is located at the duct entrance, the nozzle must be placed immediately after the fan or damper, to a maximum of 2 ft. (.6 m) from the duct opening. The entire exhaust ductwork must be pro- tected. r i j t i 1 PLENUM Figure 3 -2c. ► 007490 • • ULEX 3437 CEx732 September 1, 2006 Chapter 3 — System Design Page 3-4 REV. 2 •g. Nozzle Coverages Protection Nozzle Location Zone /Nozzle Specifications within Nozzle Nozzle Protection Nozzle L W Ht Maximum Protection Zone Offset Orientation Work Areal NV -WA See Table 3 -1 Volume 1920 cu. ft. 2 ft. maximum 0 to 6 in. Vertical Area 160 sq. ft. off center pointing down Diagonal 18.86 ft. (each side) Work Areal NV -SW See Table 3 -1A Volume 1920 cu. ft. 2 ft. maximum 0 to 6 in. Vertical Area 160 sq. ft. off center pointing down Diagonal 12.8 ft. (each side) (orifices in (to farthest corner) direction of arrow) Backdraft NV -P1 4 ft. 14 ft. 12 ft. Volume 672 cu. ft. Shortest side - center 0 to 6 in. Vertical Plenum Area 56 sq. ft. Side 14 ft. Longest side -3 inch off center (each side) Pant Leg NV -P1 4 ft. 16 ft. 20 ft. Volume 1280 cu. ft. Shortest side - center 0 to 6 in. Vertical Plenum Area 64 sq. ft. Side 16 ft. Longest side -3 inch off center (each side) Pit NV -P1 24 ft. 4 ft. 4 ft. Volume 384 cu. ft. Shortest side- center 0 to 6 in. Vertical (Option 1) Area 96 sq. ft. Side 24 ft. Longest side- center Pit NV -DP2 24 ft. 4 ft. 4 ft. Volume 384 cu. ft. Shortest side - center 2 to 8 in. Horizontal (Option 2) Area 96 sq. ft. Side 24 ft. Height- center Under Floor NV -UF 16 ft. 14 ft. 4 ft. Volume 896 cu. ft. Shortest side - center 0 to 6 in. Vertical Plenum Area 224 sq. ft. Side 16 ft. Longest side - center Exhaust NV -DP2 3 ft. 3 ft. 24 ft. Volume 216 cu. ft. Shortest side (cross 0 to 6 in. Horizontal for Duct Area 9 sq. ft. section) — center horizontal ducts Side 3 ft. Longest side (cross (Round Duct section) Vertical for 3 ft. 10 in. diameter) vertical ducts Exhaust N -DCT 12 ft. Perimeter or Length — center 0 to 6 in. Vertical Duct 3 ft. 10 in. diameter Width — center (up) 24 ft. length 1 NV -WA and NV -SW nozzles can be used for plenum, pit, or under floor protection. The nozzle maximum specifications must be followed. 2 Pant leg dimensions 4 inch minimum x 48 inch maximum. 3 Nozzle offset is the maximum distance from the tip of the nozzle to the closest edge of the protection zone. 4 Single nozzle application on a PCI -15ABC or two nozzle application on a PCI- 25sABC only. • Note: If the exhaust duct is greater than 46 in. in diameter or 12 ft. perimeter, the use of total flood protection can be utilized. ULEX 3437 CEx732 September 1, 2006 Chapter 3 - System Design • ► Page 3-4.1 Protection of exhaust ducts larger than 12 ft. perimeter or 46 in. in diameter will require the use of total flooding pro- tection for the hazard area, with the following limitation: • NV -WA or NF -ABC nozzle can be used. • An NV -WA or NF -ABC must be used at duct bend when the bend turns down from horizontal. • Horizontal duct runs are protected using a maximum of 18 ft. spacings for NV -WA nozzles and a maximum of 16 ft. spacings for NF -ABC nozzles. • Vertical duct runs are protected using a maximum of 20 ft. spacings for NV -WA or NF -ABC nozzles. • The ventilation system must be shut down before the start of the system discharge. • A discharge time delay is required on the MONARCH system. 9 FT. (2.4 m) MAXIMUM NV -WA / 8 FT. (1.2 m) MAXIMUM NF -ABC NOZZLE LOCATED / AT DUCT BEND T 1 �� 20 FT. (3.7 m) MAXIMUM NV -WA 20 FT. (3.7 m) MAXIMUM NF -ABC 18 FT. (4.9 m) MAXIMUM NV -WA 16 FT. (2.4 m) MAXIMUM NF -ABC 20 FT. (3.7 m) MAXIMUM NV -WA 20 FT. (3.7 m) MAXIMUM NF -ABC 0 i Figure 3 -2d. 007506 • ULEX 3437 CEx732 September 1, 2006 1 Chapter 3 — System Design • Page 3 -4.2 NOTES: ULEX 3437 CEx732 September 1, 2006 a Chapter 3 - System Design Page 3 -5 REV. 3 TABLE 3 -1 Paint Spray Booth Nozzle Protection Chart - Overhead Application , 1. 2 Ft. Max. Off - Center, Side 1 • X ' longest and shortest side 0 -6 in. off ceiling Side 2 Maximum Dimensions in feet/nozzle for one (1) Model NV -WA Nozzle Maximum Nozzle Maximum Nozzle Maximum Nozzle Maximum Side 1 Height Side 2 Side 1 Height Side 2 Side 1 Height Side 2 Side 1 Height Side 2 (feet) (feet) (feet) (feet) (feet) (feet) (feet) (feet) (feet) (feet) (feet) (feet) 3 20 18.62 7 20 13.71 11 20 8.73 15 20 6.40 19 18.62 19 14.44 19 9.19 19 6.74 18 18.62 18 15.24 18 9.70 18 7.11 17 18.62 17 16.13 17 10.27 17 7.53 16 18.62 16 17.14 16 10.91 16 8.00 15 18.62 15 17.51 15 11.64 15 8.53 14 18.62 14 17.51 14 12.47 14 9.14 13 18.62 13 17.51 13 13.43 13 9.85 12 18.62 12 17.51 12 14.55 12 10.67 11 18.62 11 17.51 11 14.55 11 10.67 10 18.62 10 17.51 10 14.55 10 10.67 9 18.62 9 17.51 9 14.55 9 10.67 8 18.62 8 17.51 8 14:55 8 10.67 4 20 18.43 8 20 12.00 12 20 8.00 16 20 6.00 19 18.43 19 12.63 19 8.42 19 6.32 18 18.43 18 13.33 18 8.89 18 6.67 17 18.43 17 14.12 17 9.41 17 7.06 16 18.43 16 15.00 16 10.00 16 7.50 15 18.43 15 16.00 15 10.67 15 8.00 14 18.43 14 17.14 14 11.43 14 8.57 13 18.43 13 17.08 13 12.31 13 9.23 12 18.43 12 17.08 12 13.33 12 10.00 11 18.43 11 17.08 11 13.33 11 10.00 10 18.43 10 17.08 10 13.33 10 10.00 9 18.43 9 17.08 9 13.33 9 10.00 8 18.43 8 17.08 8 13.33 8 10.00 5 20 18.18 9 20 10.67 13 20 7.38 17 20 5.65 19 18.18 19 11.23 19 7.77 19 5.94 18 18.18 18 11.85 18 8.21 18 6.27 17 18.18 17 12.55 17 8.69 17 6.64 16 18.18 16 13.33 16 9.23 16 7.06 15 18.18 15 14.22 15 9.85 15 7.53 14 18.18 14 15.24 14 10.55 14 8.07 13 18.18 13 16.41 13 11.36 13 8.17 12 18.18 12 16.57 12 12.31 12 8.17 11 18.18 11 16.57 11 12.31 11 8.17 10 18.18 10 16.57 10 12.31 10 8.17 9 18.18 9 16.57 9 12.31 9 8.17 8 18.18 8 16.57 8 12.31 8 8.17 6 20 16.00 10 20 9.60 14 20 6.86 18 20 5.33 19 16.84 19 10.11 19 7.22 19 5.63 18 17.78 18 10.67 18 7.62 18 5.63 17 17.88 17 11.29 17 8.07 17 5.63 16 17.88 16 12.00 16 8.57 16 5.63 15 17.88 15 12.80 15 9.14 15 5.63 14 17.88 14 13.71 14 9.80 14 5.63 13 17.88 13 14.77 13 10.55 13 5.63 12 17.88 12 16.00 12 11.43 12 5.63 11 17.88 11 16.00 11 11.43 11 5.63 10 17.88 10 16.00 10 11.43 10 5.63 9 17 9 16.00 9 11.43 9 5.63 8 17 8 16.00 8 11.43 8 5.63 ULEX 3437 CEx732 September 1, 2006 a Chapter 3 — System Design ® Page 3 -6 REV. 2 TABLE 3 -1A Paint Spray Booth Nozzle Protection Chart - Sidewall Application Nozzle Location Within Maximum Height Protected Zone 12 ft. Center of Side 2 0 -6 in. off the wall Side 1 Side 2 Maximum Dimensions in feet/nozzle for one (1) Model NV -SW Nozzle Max. Nozzle Max. Nozzle Max. Side 1 Height Side 2 Side 1 Height Side 2 Side 1 Height Side 2 Ft. Ft. Ft. Ft. Ft. Ft. Ft. Ft. Ft. 3 12 24.89 7 12 21.43 11 12 13.09 4 12 24.32 8 12 19.98 12 12 8.91 5 12 23.57 9 12 18.20 12.5 12 5.51 6 12 22.61 10 12 15.98 • ULEX 3437 CEx732 September 1, 2006 /' j Chapter 3 - System Design Page 3 -7 REV. 2 • N -PLU Three -Way Nozzle Application • Protection Zone /Nozzle . 4 FT. (1.2 m) Protection Area Nozzle L W H 6 FT. (1.8 m Down draft N -PLU Plenum 24 x 4 x 4 ft. Side exhaust (7.3 x 1.2 x 1.2 m) Inverted tee Vertical Riser 6 x 4 x 16 ft. (1.8 x 1.2 x 4.9 m) • Maximum Nozzle Location within Nozzle Specifications Protection Zone Orientation (4 FT. (4.9 m) I I 4 . 768 cu. ft. 5 inches up. Aimed up. ' (21.8 cu. m) Centered vertically and Side holes aimed horizontally in plenum. at ends of plenum. I1 007434 r 24 FT. / (7.3 m) 4 FT. ,f, (1.2m) -1 -. / Protection Zone /Nozzle • Protection Area Nozzle L W H 24 Down draft N -PLU Pit 24 x 8 x 4 ft. (7 FT (7.3 m) 1111111111k Pit and Trench (7.3 x 2.4 x 1.2 m) Tee shaped Trench 16x8x4 ft. . (4.9x2.4x1.2m) ® , Maximum Nozzle Location within Nozzle Specifications Protection Zone Orientation 4 (' ,, 4 FT. (1.2 1 111111111 , ,i 1280 cu. ft. 5 inches off wall Aimed at opposite end (1.2 ■ m) (36.2 cu. m) oppposite trench. of trench. Side holes ' Centered vertically and aimed at opposite ends 8 FT J horizontally in pit. of pit. (2.4 rn�/ 16 FT. (4.9 m) 8 FT. 007435 (2.4 m) Protection Zone /Nozzle Protection Area Nozzle L W H Down draft N -PLU Pit 24 x 8 x 4 ft. 24 FT. Pit and Trench (7.3 x 2.4 x 1.2 m) (7.3 m) 69 4 FT. L shaped Trench 8 x 8 x 4 ft. (1.2 m) (2.4 x 2.4 x 1.2 m) �} Maximum Nozzle Location within Nozzle , Specifications Protection Zone Orientation t 1024 cu. ft. 5 inches off wall Aimed at o site d 4 FT 8 FT p� en (1.2 m) (2.4 m) 8 FT. (28.9 cu. m) oppposite longest of longest leg. 007436 � (2.4 m) leg. Centered Side holes aimed at vertically in pit. oppposite end of 8 FT.� � 1. shortest leg. (2.4 m) �/ ULEX 3437 CEx732 , September 1, 2006 Chapter 3 — System Design Page 3 -8 REV. 3 PCI -15ABC with 1 nozzle (Duct nozzle only) 0, CYLINDER 1 m j NOZZLE 002868PC Maximum Cylinder Nozzle Nozzle Length Elbows Nozzle Height Size Quantity Type Piping Section Size Maximum Maximum From Base of Tank • PCI -15ABC 1 N -DCT Cylinder to Nozzle 3/4 in. 35 ft. (10.7 m) 6 16 ft. 1 in. (4.9 m) NOTE: 1. These limitations apply to PCI -15ABC using one N -DCT nozzle. 2. A Main /Reserve Swing Check Valve, Part No. 417788, may be located between the cylinder and the nozzle. 3. All systems protecting vehicle paint spray booths require a factory pre -set time delay. ULEX 3437 CEx732 September 1, 2006 Chapter 3 — System Design Page 3 -9 REV. 2 PCI -17ABC with 1 nozzle CYLINDER NOZZLE 002868PC Nozzle Length Elbows Cylinder Size Quantity Nozzle Type Piping Section Size Maximum Maximum PCI -17ABC 1 NV -WA or NV -SW, Cylinder to Nozzle 3/4 in. 36 ft. 4 ► (10.9 m) PCI -17ABC 1 NV -P1 (See Note 4), Cylinder to Nozzle 3/4 in. 36 ft. 7 ► NV -DP2, N -PLU, NV -UF (10.9 m) NOTE: , • 1. A Main /Reserve Swing Check Valve, Part No. 417788, may be located between the cylinder and the nozzle. 2. All systems protecting vehicle paint spray booths require a factory pre -set time delay. 3. When using an NV -P1 nozzle, the two largest discharge orifices in the nozzle body must be positioned parallel to the longest dimension of the hazard being protected. ► 4. Maximum height of nozzle from base of tank to nozzle — 20 ft. (6.1 m). ULEX 3437 , . CEx732 September 1, 2006 A Chapter 3 — System Design Page 3 -10 REV. 2 PCI -17ABC with 2 nozzles CYLINDER �' • ■ T1 ',--/ 1 NOZZLE 002863PC Maximum Length Elbows Cylinder Size Nozzle Quantity Nozzle Type Piping Section Size Maximum Maximum ' PCI -17ABC 2 NV -UF, or any Cylinder to T1 3/4 in.. 36 ft. 7 combination of NV -PI (10.9 m) (See Note 5), NV -DP2, N -PLU ► T1 to Nozzle 3/4 in. 14 ft. (4.3 m) 4 NOTE: • 1. These limitations apply to PCI -17ABC using two nozzles (any combination of either NV -P1, NV -UF, NV -DP2, or N -PLU). 2. System piping must be balanced. Balanced piping that in which the difference between the shortest actual pipe length from T1 to nozzle and the longest actual pipe length from T1 to nozzle does not exceed 10% of the longest actual pipe length from T1 to nozzle. The number and type of fittings for all T1 to nozzle sections must be equal. 3. A Main /Reserve Swing Check Valve, Part No. 417788, may be located between the cylinder and T1. 4. All systems protecting vehicle paint spray booths require a factory pre -set time delay. 5. When using an NV -P1 nozzle, the two largest discharge orifices in the nozzle body must be positioned parallel to the longest dimension of the hazard being protected. • 6. Maximum height of nozzle from base of tank to nozzle — 20 ft. (6.1 m). ULEX 3437 CEx732 September 1, 2006 Chapter 3 — System Design Page 3 -11 REV:2 PCI- 25sABC with 2 Nozzles (Duct nozzles only) CYLINDER �r. IY T1 NOZZLE 002863PC • Maximum Maximum Nozzle Cylinder Nozzle Nozzle Length Elbows Height From Size Quantity Type Piping Section Size Maximum Maximum Base of Tank PCI- 25sABC 2 N -DCT Cylinder to T1 3/4 in. 35 ft. (10.7 m) 5 '16 ft. 1 in. (4.9 m) _ ► T1 to Nozzle 3/4 in. 15 ft. (4.6 m) 3 NOTE: 1, These limitations apply to PCI- 25sABC using two N -DCT nozzles. 2. System piping must be balanced. Balanced piping is that in which the difference between the shortest actual pipe length from T1 to nozzle and the longest actual pipe length from T1 to nozzle does.not exceed 10% of the longest actual pipe length from T1 to nozzle. The number and type of fittings for all T1 to nozzle sections must be equal. 3. A Main /Reserve Swing Check Part No. 417788, may be located between the cylinder and T1. 4. All systems protecting vehicle paint spray booths require a factory pre -set time delay. ULEX 3437 CExT32 September 1, 2006 Chapter 3 — System Design Page 3 -12 REV. 2 PCI -35ABC with 2 nozzles CYLINDER i . a. a' / T1 NOZZLE ■ 002863PC • Maximum Cylinder Size Nozzle Nozzle Type Piping Section Size Length Elbows Quantity Maximum Maximum • PCI -35ABC 2 NV -WA or NV -SW Cylinder to T1 3/4 in. 36 ft. (11 m) 4 ► T1 to Nozzle 3/4 in. 14 ft. (4.3 m) 2 NOTE: 1. These limitations apply to PCI -35ABC using two NV -WA or NV -SW nozzles. 2. System piping must be balanced. Balanced piping is that in which the difference between the shortest actual pipe length from T1 to nozzle and the, longest actual pipe length from T1 to nozzle does not exceed 10% of the longest actual pipe length from T1 to nozzle. The number and type of fittings for all T1 to nozzle sections must be equal. 3. A Main /Reserve Swing Check Valve, Part No. 417788, may be located between the cylinder and Ti. 4. All systems protecting vehicle paint spray booths require a factory pre -set time delay. • 5. Maximum height of nozzle from base of tank to nozzle — 20 ft. (6.1 m). ULEX 3437 CEx732 September 1, 2006 Chapter 3 — System Design Page 3 -13 REV. 2 PCI -35ABC with 3 nozzles CYLINDER T1 T2 NOZZLE 002887PC ► Maximum Length Elbows Cylinder Size Nozzle Quantity Nozzle Type Piping Section Size Maximum Maximum • PCI -35ABC 3 1 = NV -WA or NV -SW Cylinder to T1 3/4 in. 30 ft. (9.1 m) , 4 (See Note 1) and 2 of any combination of: NV -P1 (See Note 5), NV -UF, NV -DP2 T1 to T2 3 /4 in. - 12 ft. (3.7m) 2 T2 to Nozzle 3/4 in. 8 ft. (2.4 m) 2 T1 to Nozzle 3/4 in. 12 ft. (3.7 m) 2 PCI -35ABC 3 NV -UF or any combination Cylinder to T1 3/4 in. 36 ft. 7 NV -P1 (See Note 1), (10.9 m) NV -DP2, N -FLU T1 to T2 3/4 in. 14 ft. (4.3 m) 3 T2 to Nozzle 3/4 in. 8 ft. (2.4 m) 2 ► T1 to Nozzle 3/4' in. 12 ft. (3.7 m) 4 NOTE: 1. These limitations apply to PCI -35ABC using three nozzles (1 NV -WA or NV -SW and 2 of any combination of NV -P1, NV -UF, or NV -DP2). 2. For systems that have been tested with unbalanced piping, the difference in the length of piping must not exceed 10% of the maximum unbalanced ratio tested. 3. A Main /Reserve Swing Check Valve, Part No. 417788, may be located between the cylinder and T1. 4. All systems protecting vehicle paint spray booths require a factory pre -set time delay. 5. When using an NV -P1 nozzle, the two largest discharge orifices in the nozzle body must be positioned parallel to the longest dimension of the hazard being protected. 6. Model NV -WA or NV -SW nozzle must be located on "T1 to nozzle" branch only. • 7. Maximum height of nozzle from base of tank to nozzle — 20 ft. (6.1 m). ULEX 3437 CEx732 September 1, 2006 Chapter 3 — System Design Page 3 -14 REV. 2 PCI -35ABC with 4 nozzles CYLINDER • r . T1 T2 fi NOZZLE 002864PC • Cylinder Size Maximum Nozzle Type Piping Section Size Length Elbows Nozzle Quantity Maximum Maximum • PCI -35ABC 4 Any Combination Cylinder to T1 1 in. 30 ft. (9.1 m) 7 of NV -P1 (see Note 5), NV-DP2, or NV -UF T1 to T2 1 in. 8 ft. (2.4 m) 2 T2 to Nozzle 3/4 in. 8 ft. (2.4 m) 4 PCI -35ABC 4 NV -UF or any Cylinder to T1 1 in. 30 ft. (9.1 m) 7 combination of NV -P1, T1 to T2 1 in. 8 ft. (2.4 m) 2 NV -DP2, N -PLU T2 to Nozzle 3/4 in. 8 ft. (2.4 m) 4 NOTE: 1. System piping must be balanced. Balanced piping is that in which the difference between the shortest actual pipe length from T1 to nozzle and the longest actual pipe length from T1 to nozzle does not exceed 10% of the longest actual pipe length from T1 to nozzle. T2 to nozzle on the same branch must not exceed 10% of each other. The number and type of fittings for all last tee to nozzle sections must be equal. 2. A Main /Reserve Swing Check Valve, Part No. 417788, may be located between the cylinder and T1. 3. All systems protecting vehicle paint spray booths require a factory pre -set time delay. 4. When using an NV -P1 nozzle, the two largest discharge orifices in the nozzle body must be positioned parallel to the longest dimension of the hazard being protected. • 5. Maximum height of nozzle from base of tank to nozzle — 20 ft. (6.1 m). ULEX 3437 CEx732 September 1, 2006 Chapter 3 - System Design Page 3 -15 REV. 2 PCI -70ABC with 3 nozzles CYLINDER 1 T T2 - "frN3^l�:NP BfIr1Av }rtNNR:'!YYrIF'Y ln.s41M:. / .Yµ''.MSV AIOS++I , .:IK^T M. f r a NOZZLE 002867PC ► Maximum Length Elbows Cylinder Size Nozzle Quantity Nozzle Type Piping Section Size Maximum Maximum • PCI -70ABC 3 NV -WA or NV -SW Cylinder to T1 1 in. 40 ft. (12.2 m) 4 T1 to T2 3/4 in. 18 ft. (5.5 m) 2 T1 to Nozzle 3/4 in. 18 ft. (5.5 m) 2 ► T2 to Nozzle 3/4 in. 9 ft. (2.7 m) 2 NOTE: 1. These limitations apply to PCI -70ABC using three NV -WA or NV -SW nozzles. • 2. For systems that have been tested with unbalanced piping, the difference in the length of piping must not exceed 10% of the maximum unbalanced ratio tested. 3. A Main /Reserve Swing Check Valve, Part No. 417788, may be located between the cylinder and T1. 4. All systems protecting vehicle paint spray booths require a factory pre -set time delay. • 5. Maximum height of nozzle from base of tank to nozzle — 20 ft. (6.1 m). ULEX 3437 CEx732 September 1,2006 Chapter 3 — System Design Page 3 -16 REV. 3 PCI -70ABC with 4 nozzles CYLINDER Ti T2A T2 • r r NOZZLE 002864PC Maximum Length Elbows Cylinder Size Nozzle Quantity Nozzle Type Piping Section Size Maximum Maximum ► PCI -70ABC 4 NV -WA or NV -SW Cylinder to T1 1 in. 40 ft. (12.2 m) 4 T1 to T2 1 in. 18 ft. (5.5 m) 2 ► T2 to Nozzle 3/4 in. 9 ft. (2.7 m) 2 Maximum Length Elbows Cylinder Size Nozzle Quantity Nozzle Type Piping Section Size Maximum Maximum PCI -70ABC 4 3 - NV -WA or NV-SW Cylinder to T1 1 in. 40 ft. 4 ► and 1 of: (12.2 m) NV -P1 (See Note 5) NV -UF NV -DP2 ► T1 to T2 1 in. 18 ft. (5.5 m) 2 ► T2 to Nozzle 3/4 in. 9 ft. (2.7 m) 2 (Continued) ULEX 3437 CEx732 September 1, 2006 4 , Chapter 3 — System Design Page 3 -17 REV. 1 PCI -70ABC with 4 nozzles . (Continued) Maximum Length Elbows • Cylinder Size Nozzle Quantity Nozzle Type Piping Section Size Maximum Maximum PCI -70ABC 4 2 — NV -WA or NV -SW Cylinder to T1 1 in. 40 ft. 4 ► and 2 of any (12.2 m)' combination of NV -P1 or NV -DP2 (See Note 5) ► T1 to T2 1 in. 18 ft. (5.5 m) 2 T1 to T2A* 1 in. 18 ft. (5.5 m) 3 T2 to Nozzle 3/4 in. 9 ft. (2.7 m) 2 T2A' to Nozzle 3/4 in. 9 ft. (2.7 m) 2 ' The Models NV - P1 and NV - D /P2 must be located on branch T2A to nozzle only. NOTE: 1. These limitations apply to PCI -70ABC using four NV -WA or NV -SW nozzles. 2. System piping must be balanced. Balanced piping is that in which the difference between the shortest actual pipe length fromTl to nozzle and the longest actual pipe length from T1 to nozzle does not exceed 10% of the longest actual pipe length from T1 to nozzle. T2 to nozzle on the same branch must not exceed 10% of each other. The number and type of fittings for all last tee to nozzle sections must be equal. 3. A Main /Reserve Swing Check Valve, Part No. 417788, may be located between the cylinder and T1. 4. All systems protecting vehicle paint spray booths require a factory pre -set time delay. 5. When using an NV -P1 nozzle, the two largest discharge orifices in the nozzle body must be positioned parallel to the longest dimension of the hazard being protected. • 6. Maximum height of nozzle from base of tank to nozzle — 20 ft. (6.1 m). • ULEX 3437 CEx732 September 1, 2006 A Chapter 3 — System Design Page 3 -18 REV. 1 PCI -70ABC with 5 nozzles 0 . CYLINDER NV -WA or NV -SW NV -P1 NV -DP2 NOZZLE $ NOZZLE NOZZLE I a��!MiYTC: `:, `J3�i��A;�rowY}liK ------ Ti I— V i T2A II 1 ' NV -WA or NV -SW NV -WA or NV -SW NOZZLE NOZZLE 002885PC ► Maximum Length Elbows , Cylinder Size Nozzle Quantity Nozzle Type Piping Section Size Maximum Maximum PCI -70ABC 5 3 - NV -WA or NV -SW and Cylinder to T1 1 in. 16 ft. 2 1 — NV -P1 (see Note 6) (4.9 m) and 1 — NV -DP2 ► T1 to T2A 1 in. 9 ft. (2.7 m) 2 T2A to Nozzle 3/4 in. 8 ft. (2.4 m) 2 T1 to T2B 1 in. 9 ft. (2.7 m) 2 T2B to Nozzle 3/4 in. 6 1/2 ft. (2 m) 2 T2B to T3 1 in. 6 ft. (1.8 m) 2 ► T3 to Nozzle 3/4 in. 4 ft. (1.2 m) 2 NOTE: 1. These limitations apply to PCI -70ABC using five nozzles (3 NV -WA or NV -SW, 1 NV -P1, and 1 NV -DP2). 2. For systems that have been tested with unbalanced piping, the difference in the length of piping must not exceed 1O% of the maximum unbalanced ratio tested. 3. A Main /Reserve Swing Check Valve, Part No. 417788, may be located between the cylinder and T1. 4. All systems protecting vehicle paint spray booths require a factory pre -set time delay. 5. Nozzles located after T3 can only be Models NV -DP2 and NV -P1. 6. When using NV -P1 nozzle, the two largest discharge orifices in the nozzle must be positioned parallel to the longest dimension of the hazard being protected. • 7. Maximum height of nozzle from base of tank to nozzle — 20 ft. (6.1 m). ULEX 3437 CEz732 September 1, 2006 Chapter 3 - System Design • Page 3 -19 Detector Placement Thermal detectors are required in all hazard areas protect- A temperature survey must be performed to determine the ed by the PYRO -CHEM Vehicle Paint Spray Booth Industrial • maximum ambient temperature of the hazard survey. See Fire Suppression System if automatic system operation is Temperature Chart in Chapter 2 - Components. required. Either mechanical or electrical thermal detectors can be used for automatic system operation. Mechanical TOTAL FLOODING (DETECTOR SPACING) - FUSIBLE detectors (fusible links) are used in conjunction with the LINKS PYRO -CHEM Models MCH3 and NMCH3 control devices. Ceiling Height Spacing Electrical detectors are used in conjunction with the PYRO -CHEM Models ECH3 -24 and ECH3 -120 Control Up to 14 ft. (4.2 m) 10 ft. (3.0 m) maximum Heads. Height detectors 5 ft. (1.5 m) max. from a wall* • TOTAL FLOODING (DETECTOR SPACING) - THERMAL 100 ft. (9.2 sq. m) max. coverage per r deett ector Ceiling Height Spacing Greater than 8 ft. (2.4 m) max. between detectors Up to 14 ft. (4.2 m) 15 ft. (4.5 m) maximum 14 ft. (4.2 m) up to Height between detectors 20 ft. (6.1 m) height 4 ft. (1.2 m) max. from wall 7 ft. 6 in. (2.3 m) max. from wall 64 sq. ft. (5.9 sq. m) max. coverage 225 sq. ft. (20.9 sq. m) max. per detector coverage per detector NOTE: For sloped ceiling (peaked type or shed type) Greater than 13 ft. (3.9 m) maximum installations, refer to NFPA -72, "National Fire Alarm Code" 14 ft. (4.2 m) between detectors for detailed spacing requirements. up to 20 ft. 6 ft. 6 in. (1.9 m) max. from wall LOCAL APPLICATION - OVERHEAD (DETECTOR SPAC- (6.1 m) height 169 sq. ft. (15.7 sq. m) max. ING) - Maximum spacing per fusible link detector is 36 ft. coverage per detector (3.3 m or 3 ft. (.9 m) from edge of hazard and 6 ft. (1.8 m) Greater than 11 ft. (3.4 m) max. between fusible link detectors. 20 ft. (6.9 m) between detectors When a detector(s) is mounted more than 1 ft. (.3 m) below up to 24 ft. (7.3 m) 5 ft. 6 in. (1.7 m) max. from wall ceiling or in an open area, heat trap(s) is recommended. 121 sq. ft. (11.2 sq. m) max. Detectors should be mounted overhead at nozzle height or coverage per detector as close to the hazard as possible without interference, not Greater than 9 ft. (2.7 m) max. to exceed 10 ft. (3 m). 24 ft. (7.3 m) between detectors Detectors should not be located where they will be suscep- up to 30 ft. (9.1 m) 4 ft. 6 in. (1.4 m) max. from wall tible to damage during the normal work operation. 81 sq. ft. (7.5 sq. m) max. coverage per detector LOCAL APPLICATION - TANKSIDE (DETECTOR SPAC- ING) - Detectors can be located either near the inner tank NOTE: For sloped ceiling (peaked type or shed type) wall and flammable liquid surface or above the tank. If locat- installations, refer to NFPA -72, "National Fire Alarm Code" ed above the tank, the rules for local application overhead for detailed spacing requirements. would apply. If located on the tank wall, the detectors can be LOCAL APPLICATION - OVERHEAD (DETECTOR mounted horizontally or vertically in the freeboard area but SPACING) - Maximum spacing per detector is 100 ft. must be protected from damage during normal working (9.3 m or 5 ft. (1.5 m) from edge of hazard and 10 ft. operation. Detectors should be located at a maximum spec- (3.1 m) between detectors. When detectors are mounted ing per detector of 3 ft. (.9 m) from edge of hazard and 6 ft. below the ceiling in an open area, heat traps are recom- (1.8 m) between detectors on the long side of the tank. mended. *For 14 ft. (4.3 m) wide booths with maximum height of 12 ft. (3.7 m), the LOCAL APPLICATION - TANKSIDE (DETECTOR SPAC- detector location off the side wall can be a maximum of 7 ft. (2.1 m). ING) - Detectors can be located either near the inner tank • wall and flammable liquid surface or above the tank. If locat- ed above the tank, the rules for local application overhead would apply. If located on the tank wall, the detectors can be mounted horizontally or vertically in the freeboard area, but must be protected from damage during normal working operations. The maximum spacing per detector is 5 ft. (1.5 m) from edge of hazard and 10 ft. (3.1 m) between detectors. ULEX 3437 CEx732 September 1, 2006 + e Chapter 3 — System Design • Page 3 -20 NOTES: ULEX 3437 CEx732 September 1, 2006