Basic Working and Operation
Gas analyzers are instruments used to detect and measure the concentration of gases in a sample. They play a crucial role in monitoring and controlling air quality, industrial processes, and emissions. Gas analyzers can be based on various principles such as infrared absorption, chemiluminescence, electrochemical, and more.
Components:
- Sample Inlet: Where the gas sample is introduced.
- Sensor/Detector: Converts the gas concentration into a measurable signal.
- Signal Processor: Processes the signal from the sensor.
- Display/Output: Shows the measured gas concentration or transmits the data for further analysis.
Operation:
- The gas sample is drawn into the analyzer through the sample inlet.
- The sensor detects the presence and concentration of specific gases in the sample.
- The signal processor converts the sensor’s output into a readable format.
- The concentration is displayed on the screen or transmitted to a control system.
Types of Gas Analyzers
Infrared (IR) Gas Analyzers:
Principle: Absorption of infrared light by gas molecules.
Applications: Measuring CO2, CO, CH4, and other hydrocarbons.
Example: Monitoring CO2 levels in industrial emissions.
Chemiluminescence Gas Analyzers:
Principle: Emission of light during a chemical reaction.
Applications: Measuring nitrogen oxides (NOx).
Example: Analyzing NOx in vehicle exhaust emissions.
Electrochemical Gas Analyzers:
Principle: Chemical reaction producing an electrical signal.
Applications: Detecting O2, CO, H2S, and other toxic gases.
Example: Monitoring oxygen levels in confined spaces.
Flame Ionization Detectors (FID):
Principle: Ionization of gas molecules in a flame.
Applications: Measuring total hydrocarbons.
Example: Monitoring hydrocarbon emissions in refineries.
