Gas analyzing apparatus and method for simultaneous measurement of carbon dioxide and water

US 5,332,901 A
Filed: 03/15/1991
Issued: 07/26/1994
Est. Priority Date: 03/15/1991
Status: Expired due to Term

First Claim

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1. Apparatus, comprising:

a source of light having a spectrum of wavelengths including longer wavelengths and shorter wavelengths;

means for transmitting light from said source of light through a gas sample cell containing a mixture of two gases, one of which has a high absorbance at said longer wavelength and the other of which has a high absorbance at said shorter wavelength;

a dichroic beam splitter with a high transmission for one of said longer and shorter wavelengths and a high reflectance of the other of said longer and shorter wavelengths;

a first detector positioned to receive light transmitted through said beam splitter;

a second detector positioned to receive light reflected from said beam splitter, whereby one of said detectors receives principally light within the high absorbance frequency of one of said gases and other receives light within the high absorbance frequency of the other of said gases;

a first narrow band pass filter between said beam splitter and said first detector for passing only light of said one wavelength and a second narrow band pass filter between said beam splitter and said second detector for passing only light of said other wavelength;

said light source being an infrared light source, said first and second filters being 50 nanometer band pass filters, said first and second detectors being linear, said first filter having a center point at 4.26 microns and said second filter having a center point at 2.59 microns;

a reference cell substantially free of said two gases;

said means for transmitting light including means for transmitting light through said reference cell to said dichroic beam splitter, whereby a reference signal and a sample signal are generated by each of said first and second detectors; and

means for receiving said reference and sample signals;

said means for receiving said reference and sample signals including means for maintaining each respective reference signal constant by adjusting a corresponding scaling factor and means for multiplying each sample signal by their corresponding reference signal'"'"'s scaling factor.

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Abstract

To measure water vapor and carbon dioxide, a gas analyzer includes a light source, a reference flow cell, a sample flow cell, and a detector. The light source, flow cells and detector are arranged so that the detector detects light transmitted from said light source through said reference flow cell and through said sample flow cell and generates a reference signal representing the light transmitted through a reference gas in said reference flow cell and a sample signal representing the light transmitted through a sample gas in said sample flow cell. The reference signal is subtracted from the sample signal to obtain an independant variable. A signal representing gross concentration of the carbon dioxide as a dependant variable is obtained from said independent variable from a stored empirically determined third power polynomial. The polynomial includes terms having at least first, second and third powers of said independant variable. Each of these terms includes a coefficient determined empirically so that values of the dependant variable, gross concentration, can be determined for different independant variables.

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11 Claims

1. Apparatus, comprising:
- a source of light having a spectrum of wavelengths including longer wavelengths and shorter wavelengths;
  
  means for transmitting light from said source of light through a gas sample cell containing a mixture of two gases, one of which has a high absorbance at said longer wavelength and the other of which has a high absorbance at said shorter wavelength;
  
  a dichroic beam splitter with a high transmission for one of said longer and shorter wavelengths and a high reflectance of the other of said longer and shorter wavelengths;
  
  a first detector positioned to receive light transmitted through said beam splitter;
  
  a second detector positioned to receive light reflected from said beam splitter, whereby one of said detectors receives principally light within the high absorbance frequency of one of said gases and other receives light within the high absorbance frequency of the other of said gases;
  
  a first narrow band pass filter between said beam splitter and said first detector for passing only light of said one wavelength and a second narrow band pass filter between said beam splitter and said second detector for passing only light of said other wavelength;
  
  said light source being an infrared light source, said first and second filters being 50 nanometer band pass filters, said first and second detectors being linear, said first filter having a center point at 4.26 microns and said second filter having a center point at 2.59 microns;
  
  a reference cell substantially free of said two gases;
  
  said means for transmitting light including means for transmitting light through said reference cell to said dichroic beam splitter, whereby a reference signal and a sample signal are generated by each of said first and second detectors; and
  
  means for receiving said reference and sample signals;
  
  said means for receiving said reference and sample signals including means for maintaining each respective reference signal constant by adjusting a corresponding scaling factor and means for multiplying each sample signal by their corresponding reference signal'"'"'s scaling factor.
- View Dependent Claims (2, 3)
- - 2. Apparatus according to claim 1 further including calibration means for storing a relationship between absorbance of infrared light and carbon dioxide concentration at a predetermined pressure and temperature and means for correcting measurements of infrared absorbance for temperatures and pressures other than said predetermined pressure and temperature wherein a reading of infrared absorbance can be converted into a reading of carbon dioxide concentration for a specified temperature and pressure.
  - 3. Apparatus according to claim 2 further including means for correcting at least one of said two sample signals for changes in said one sample signal from absorbance of infrared light caused by the other of said two gases on the gas represented by said one sample signal.

4. A gas analyzer, comprising:
- a light source;
  
  a reference flow cell and a sample flow cell;
  
  detecting means for detecting light transmitted from said light source through said reference flow cell and through said sample flow cell and generating a reference signal representing said light transmitted through a reference gas in said reference flow cell and a sample signal representing light transmitted through a sample gas in said sample flow cell;
  
  means for receiving said reference and sample signals;
  
  said means for receiving said reference and sample signals including means for maintaining the reference signal constant by adjusting a scaling factor and means for multiplying said sample signal by said scaling factor such that said sample signal varies and said reference signal remains constant wherein a corrected sample signal is obtained;
  
  means for subtracting said constant reference signal from said corrected sample signal to obtain an independent variable; and
  
  means for generating a gross concentration signal representing gross concentration as a dependent variable from said independent variable;
  
  wherein said means for generating a gross concentration signal further includes means for storing an empirically determined third power polynomial including different terms having at least the first, second and third powers of said independent variable, each of said terms including a coefficient determined empirically, whereby values of gross concentration can be determined for different independent variables.
- View Dependent Claims (5, 6, 7, 8)
- - 5. Apparatus according to claim 4 further including means for correcting the values of gross concentration for other temperatures and pressures than the polynomial represents wherein a first gross concentration value can be converted into a second gross concentration value of said sample gas for different pressures and temperatures.
  - 6. Apparatus according to claim 5 in which the means for correcting further includes means for multiplying the dependent variable by two ratios, one of which is the ratio of the absolute temperature of the measurements being made divided by the absolute temperature at which measurements were made during calibration and the other of which is the pressure at which measurements were made during calibration divided by the pressure during which measurements are being made, whereby a concentration value for zero reference concentration measurements is obtained.
  - 7. Apparatus according to claim 6 in which said means for multiplying further includes means for adding the product of the dependent variable and the two ratios to another product, which another product is a gain of an automatic gain control amplifier multiplied by the concentration value for zero reference concentration measurements.
  - 8. Apparatus according to claim 4 further including means for correcting for changes in said sample signal due to the absorbance of light by gases other than said sample gas mixed with said sample gas.

9. A method of analyzing gas comprising the steps of:
- transmitting light through a reference flow cell and a sample flow cell;
  
  detecting the light transmitted through said reference flow cell and through said sample flow cell and generating a signal representing each of said light transmitted through a reference gas in said reference flow cell and light transmitted through a sample gas in said sample flow cell;
  
  transmitting said reference and sample signals to a means for maintaining the reference signal constant;
  
  maintaining said reference signal constant by adjusting a scaling factor;
  
  multiplying said sample signal by said scaling factor whereby a corrected sample signal is obtained;
  
  subtracting said constant reference signal from said corrected sample signal to obtain an independent variable;
  
  providing an empirically determined third power polynomial including different terms having at least the first, second and third powers of said independent variable, each of said terms including a coefficient determined empirically, whereby values of gross concentration can be determined for different independent variables;
  
  storing said empirically determined polynomial;
  
  generating a signal representing gross concentration as a dependent variable from said independent variable.
- View Dependent Claims (10, 11)
- - 10. A method according to claim 9 further including the step of:
    - correcting the gross concentration for actual temperature and pressures wherein a gross concentration reading can be converted into a more precise gross concentration reading of said sample gas.
  - 11. A method according to claim 9 further including the step of correcting said sample signal for changes due to the absorbance of light by gases other that said sample gas mixed with said sample gas.

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Current Assignee
Li & S Company Limited (Yesco Holdings Co., Ltd.)
Original Assignee
Li & S Company Limited (Yesco Holdings Co., Ltd.)
Inventors
Eckles, Robert D., Welles, Jonathan M., McDermitt, Dayle K.
Primary Examiner(s)
Hannaher, Constantine
Assistant Examiner(s)
Glick, Edward J.

Application Number

US07/670,342
Time in Patent Office

1,229 Days
Field of Search

250/339, 250/340, 250/341, 250/343, 250/345, 250/252.1, 356/437, 356/436, 356/438, 356/439
US Class Current

250/345
CPC Class Codes

G01N 21/3504 for analysing gases, e.g. m...

Gas analyzing apparatus and method for simultaneous measurement of carbon dioxide and water

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

111 Citations

11 Claims

Specification

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Gas analyzing apparatus and method for simultaneous measurement of carbon dioxide and water

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

111 Citations

11 Claims

Specification

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Solutions

Use Cases

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