Infrared Non Dispersive CO2 Analyzer Working Principle

The CO2 Analyser is a Analytical instrument that measures the concentration of CO2 gas in the process. The CO2 Analyzer use multi-component analysis by using Non Dispersive Infrared (NDIR) sensor technology for consistent, precise process gas measurement.

CO2 Analyzer Working Principle

The Non Dispersive Infrared (NDIR) detection method is based upon the absorption of infrared radiation at specific wavelengths as it passes through a volume of sample. Non-Dispersive Infrared (NDIR) techniques for the measurement of various gases rely on the energy absorption characteristics of a particular gas in the infrared region. In a simple NDIR instrument, Infrared energy passes through two identical tubes and falls on a detector. The first tube is the reference cell and is filled with a non-absorbing gas such as nitrogen. The second tube is the measurement cell and contains the gas sample to be analyzed.

CO2 Analzer Working Principle

The IR Source continuously sends an IR waves through the gas tubes and detector measures the intensity of two different wavelengths, one at the sample gas absorption wavelength and the other is at reference gas absorption wavelength. As the reference gas generally contains nitrogen so the detector receives 100% signal. If the CO2 gas is present in sample gas means the received signal will be attenuated at the detector side. The detector measures these two signals and their difference is proportional to the amount of absorbing gas in the sample cell .i.e. CO2 gas. So Finally the CO2 gas concentration is measured with the difference in absorption of IR radiation in the sample and reference cells. CO2 gas concentration measuring unit is ppm.

Also See: NDIR Gas Analyzer Animation 

Don't Miss Our Updates
Be the first to get exclusive content straight to your email.
We promise not to spam you. You can unsubscribe at any time.
Invalid email address

12 thoughts on “Infrared Non Dispersive CO2 Analyzer Working Principle”

  1. it is really very informative, but i want to know more about detector and the chopper used in this type of analyzer.like i read that at detector resonance is created, why? and why is this chopper used in analyzer?

    Reply
      • Hiii S bharadwaj
        Actually the source is split before chopper as u can see it in the image “Typical infrared Photometer” and in second image also. In this Image chopper is after splitter.

        Reply
  2. the chopper is used to modulate the IR signal,not “split” it (or to alternate pulses between sample and reference),so the detectors measure the average of an AC signal. That is for simpler detector amplifiers,less DC drift,more stable calibration. Common in small-signal measurements.

    What I don’t understand is why use two different IR frequencies; surely the different filters would result in different levels of IR at the detectors. the N2 side is not supposed to absorb ANY of the CO2 IR freq,as a 100% reference level,and the sample absorbs some % of the second IR beam,allowing a computation or just subtraction between the 100% and unknown levels,to give the precise amount of absorption. (I’m a former USAF Precision Measurement Equipment tech,aka”PMEL” Calibration is what we do.)
    So I presume the same IR freq is passed through both sample and reference,having the exact same intensity on both sides.

    Reply

Leave a Comment