Infrared Gas Analyzers
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  1. Infrared Gas Analyzers
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Infrared Gas Analyzers

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Use For real-time monitoring of specific gases like methane or CO2

Description

Key Components and Functionality:

  1. Infrared Source: Emits infrared radiation across a specific wavelength range.

  2. Sample Cell: Contains the gas sample to be analyzed.

  3. Detector: Measures the intensity of the infrared radiation transmitted through the sample cell.

  4. Optical System: Guides the infrared radiation through the sample cell and to the detector.

  5. Electronics: Processes the detector signal, converts it into a concentration reading, and displays the results.

Types of Infrared Gas Analyzers:

  • Non-Dispersive Infrared (NDIR) Analyzers:

    • Employ a filter to select a specific wavelength of IR radiation that is strongly absorbed by the target gas.

    • A reference cell filled with the target gas is used to compensate for variations in the IR source intensity.

    • Simple, robust, and widely used for measuring gases like CO2, CO, and CH4.

  • Fourier Transform Infrared (FTIR) Analyzers:

    • Utilize an interferometer to split the IR radiation into two beams, which are then recombined to create an interference pattern.

    • Fourier Transform analysis of this interference pattern yields the complete infrared spectrum of the sample.

    • Highly versatile, capable of identifying and quantifying multiple gases simultaneously.

Applications:

  • Environmental Monitoring: Measuring greenhouse gases, air pollutants, and other atmospheric gases.

  • Industrial Process Control: Monitoring and controlling combustion processes, optimizing fuel efficiency, and ensuring emissions compliance.  

  • Medical Applications: Analyzing respiratory gases for diagnostic purposes.
  • Scientific Research: Studying atmospheric chemistry, climate change, and other environmental phenomena.

Advantages:

  • High Sensitivity and Specificity: Can detect and quantify trace amounts of gases with high accuracy.

  • Non-Destructive: The measurement process does not alter the sample.

  • Versatility: Suitable for measuring a wide range of gases in various environments.

Limitations:

  • Interference from other gases: Some gases may absorb IR radiation at similar wavelengths, potentially interfering with the measurement.

  • Limited to IR-active gases: Only gases that absorb IR radiation can be measured

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