Gas detector location and installation – Det-Tronics EQP Fire and Gas Detection/Releasing System User Manual

14.1

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GAS DETECTOR LOCATION AND

INSTALLATION

Gas detection devices must be properly located to

provide maximum protection. Determining the proper

number of devices and placement varies depending

on the specific requirements of the area of protection.

The following should be considered when locating a

gas detection device:

1. Gas type. If it is lighter than air (acetylene,

hydrogen, methane, etc.), place the sensor above

the potential source. Place the sensor close to

the floor for gases that are heavier than air

(benzene, butane, butylene, propane, hexane,

pentane, etc.) or for vapors resulting from

flammable liquid spills.

NOTE

Air currents can cause a gas that is heavier than
air to rise. Also, if the gas is hotter than ambient
air, it could also rise.

2. How rapidly will the gas diffuse into the air?

Select a location for the sensor as close as

possible to the anticipated source of a gas leak.

3. Ventilation characteristics. Air movement will

cause gas to accumulate more heavily in one area

than another. The devices should be placed in

areas where the most concentrated accumulation

of gas is anticipated.

4. Devices should be pointed down to prevent the

buildup of moisture or contaminants on the filter.

5. Devices must be accessible for testing and

calibration.

NOTE

The use of the Sensor Separation Kit will be
required in some installations.

ENvIRONMENTS AND SUBSTANCES THAT
AFFECT GAS DETECTOR PERFORMANCE
Catalytic sensors should be located where they are

safe from potential sources of contamination that can

cause a decrease in the sensitivity of the device

including:

A. Substances that can clog the pores of the flame

arrestor and reduce the gas diffusion rate to the

sensor including:

Dirt and oil, corrosive substances such as Cl2

(Chlorine) or HCl, paint overspray, or residue from

cleaning solutions that can clog the flame arrestor.

NOTE

A dust cover should be installed to protect the
flame arrester whenever these conditions exist.

B. Substances that cover or tie up the active sites on

the catalytic surface of the active sensing element

such as volatile metal organics, gases, or vapors

of hydrides, and volatile compounds containing

phosphorous, boron, silicone, etc.

Examples:

RTV silicone sealants

Silicone oils and greases

Tetraethyl lead

Phosphine

Diborane

Silane

Trimethyl chlorsilane

Hydrogen fluoride

Boron trifluoride

Phosphate esters

Table 3-16—Maximum Wiring Length for FM Approved Solenoids for Deluge and Pre-Action Applications

Solenoids

Maximum Wire Length in Feet (Meters)

FM Solenoid Group Manufacturer

Model

12 AWG

14 AWG

16 AWG 18 AWG

B

ASCO

T8210A107

183 (56)

115 (35)

72 (22)

46 (14)

D

ASCO

8210G207

314 (96)

198 (60)

124 (38)

78 (24)

E

Skinner

73218BN4UNLVNOC111C2

331 (101)

208 (63)

131 (40)

82 (25)

F

Skinner

73212BN4TNLVNOC322C2

130 (40)

82 (25)

51 (16)

32 (10)

G

Skinner

71395SN2ENJ1NOH111C2

331 (101)

208 (63)

131 (40)

82 (25)

H

Viking

HV-274-0601

180 (55)

110 (34)

70 (21)

45(14)