What is Fire and Gas System


Fire and Gas System or portion of a combination system that consists of components and circuits arranged to monitor and annunciate the status of fire or presence of gas alarm or supervisory signal-initiating devices and to initiate the appropriate response to those signals.


I. Gas Detectors

Gas Detectors are broadly divided into 2 types:

1. Flammable Gas Detectors:

Detects the percentage by volume of flammable gas in air in terms of LFL and UFL

2. Toxic Gas Detectors:

Detects the concentration in ppm of Toxic gas in terms of TLV

1. Flammable Gas Detectors:

The three types of Flammable gas detectors are:

  • a. Catalytic Gas Detectors
  • b. Infrared Gas Detectors
  • c. Open Path (Line of Sight) Gas Detectors

a. Catalytic (Pellistor) Gas Detectors:

Working Principle: Catalytic gas detectors determine gas concentration through oxidization which results in heat, and this is sensed by a bridge circuit. It follows that catalytic gas detectors under-read in the low oxygen atmospheres which exist with gas rich releases.

Set Point: Catalytic detectors have a typical recommended minimum alarm setting of 20 % LFL and 60 % LFL to indicate low and high level of gas

	Catalytic (Pellistor) Gas Detectors


b. Infrared Gas Detectors:

Working Principle: Infrared Gas Detectors make use of the property of Hydrocarbons and other gases to absorb infra-red energy at certain wavelengths but not others. For HCs the absorption peak occurs around 3.4 µm. A reference measurement is normally made close to the measurement wavelength that is not absorbed by expected gases. The ratio from the two measurements gives the gas concentration free from variations in signal intensity and detection sensitivity.

Set Point: Infra-red detectors have a typical recommended minimum alarm setting of 20 % LFL and 60 % LFL to indicate low and high level of gas

Infrared Gas Detectors

c. Open Path (Line of Sight) Gas Detectors:

Working Principle: Open path gas detectors make use of properties of gases to absorb infrared energy at certain wavelengths but not others. This property coupled with high energy sources enables open path detectors to sense gas over relatively long distances.

Set Point: Set Point: Open path detectors have a typical recommended minimum alarm setting of 0.5 LFL m (50 % LFL extended for one meter)

	Open Path (Line of Sight) Gas Detectors

2. Toxic Gas Detectors

Major 2 categories are available:

• Detectors for gases which create an immediate health hazard (eg. H2S, CO, HF, HCl, Cl2)

• Detectors for gases that create a health hazard on long term exposure (eg. Vinyl Chloride, Benzene, Toluene etc.)

H2S detectors: The two types of H2S detectors available are:

a. Electro-chemical cell type:

This type is based on an electro-chemical cell, developed to react exclusively to H2S. As a result of chemical reaction of the cell organic electrolyte with H2S, an electric current is generated, which is proportional to the H2S concentration in the sample gas.

b. Semi-conductor (MOS) type:

Working principle: The semi-conductor type is based on the adsorption of H2S molecules on the surface of a solid-state semi-conductor crystal which causes a change in electrical resistance of the electrical circuit of which the semi-conductor forms the part.

Set Point: H2S detectors have a typical recommended minimum alarm setting of 5 ppm. If second stage alarm is used, 10 ppm shall be used.

Semi-conductor (MOS) type

Semi-conductor (MOS) type

II. Fire Detectors

Fire Detectors are broadly divided into 3 types:
1. Smoke Detectors

  • a. Ionisation
  • b. Photo-Electric

2. Heat Detectors

3. Flame Detectors

1. Smoke Detectors:

There are two types of smoke as mentioned above

a. Ionisation Smoke Detector

Detection Principle:

• These Detectors have an ionisation chamber with a 8 particle radiator consisting an Americium-241 foil at its centre and it ionises the air inside the chamber.

• An electric voltage is applied to the needle electrode and as a result, a known current flows through the detection chamber when the detector is in its normal state. In the event of fire, minute aerosol particles (soot particles, combustion gases etc.) attach themselves to the ionised particles. This increases the resistance in the chamber and consequently reduces the current flow within the detection chamber. This change is registered by Detector’s electronics and a fire signal is sent to the Control Panel.

Ionisation Smoke Detector

Ionisation Smoke Detector


b. Photoelectric (Optical) Smoke Detector

Detection Principle:

• The sensor consists of a transmitter LED and a receiver photo-diode. These two devices are installed at a specific angle to one another and separator by a screen, so that light from the LED cannot impinge directly on the receiver diode.

• The transmitter LED emits infrared light into the detection chamber. In the event of a fire, visible combustion products enter into the chamber and some of the light emitted by the LED is scattered by the particles so that it impinges on the receiver diode. This naturally increases the signal level generated by the receiver, which is registered by the detector electronics, which in turn trigger the alarm signal.

Photoelectric (Optical) Smoke Detector


2. Heat Detectors:

Heat or Thermal Detectors register the increase in temperature caused by a Fire.

a. Fixed Temperature

It triggers automatically when a preset ambient temperature is reached.

b. Rate of Rise

In addition to present trigger temperature, the rate-of rise detectors also evaluate the speed of temperature increase. If the temperature rises faster than the pre-set amount within a specific period, a rate-of-rise detector will trigger an alarm even if the set point trigger temperature has not actually been reached.

c. Rate Compensated

It responds when the temperature of the air surrounding the device reaches a predetermined level, regardless of the rate of temperature rise.

3. Flame Detectors

  • • Flame detectors are typically used in open areas outdoors, but can also be used indoors
  • • Used to protect high risk areas such as oil rigs, fuel stores, petro-chemical plants, hangers etc
  • • They work by analysing the energy emissions from a fire (UV or IR) not the combustion products such as smoke and heat
  • • Hot objects (engines / exhausts / heaters) are potential false alarm sources, including the Sun
  • • Need to distinguish between emissions from a real fire and a false alarm source
  • • High value detectors covering large areas

The different types of Flame detector are:

  • Ultra Violet detectors
  • Single Channel IR detectors
  • Combined UV and Single channel IR
  • Dual Channel IR flame detectors
  • Triple Channel IR flame detectors
  • CCTV flame detection
Single Channel IR flame detector

Single Channel IR flame detector


UV/IR flame detector

UV/IR flame detector


Triple Channel IR flame detector

Triple Channel IR flame detector