Measurement cell for water vapor sensor
First Claim
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1. An apparatus for measuring dry gas samples and water vapor gas samples in a test cell having a gas chamber, comprising:
- a) a cyclical means for periodically pressurizing gas in said chamber;
b) a pair of windows, one on either end of said chamber, thereby to provide a radiation path through said chamber;
c) a radiation source outside said chamber adjacent one of said windows, and a radiation detector outside said chamber adjacent the other of said windows, said radiation detector having means for producing electrical signals as a result of receiving radiation from said radiation source, said electrical signals having a periodic waveform influenced by said means for periodically pressurizing gas in said chamber;
d) means for regulating the radiation energy transfer characteristics of said chamber; and
e) means for adjusting said means for regulating whereby a radiation signal produced by a dry gas in said chamber is time variant in the same phase as a radiation signal produced by a gas having a water vapor concentration in said chamber.
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Abstract
An absorption cell of the type used to measure gas concentrations by pressure fluctuations of the concentrated gas in an IR radiation field, wherein the IR radiation through the field is affected by the pressurized gas fluctuations to thereby provide an electrical measurement of gas concentration. The sensitivity, linearity and accuracy of the measured gas concentration is improved by controlling the surface roughness of the interior walls of the measurement cell; the wall roughness is preferably controlled to between 15 and 70 microinches.
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Citations
22 Claims
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1. An apparatus for measuring dry gas samples and water vapor gas samples in a test cell having a gas chamber, comprising:
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a) a cyclical means for periodically pressurizing gas in said chamber; b) a pair of windows, one on either end of said chamber, thereby to provide a radiation path through said chamber; c) a radiation source outside said chamber adjacent one of said windows, and a radiation detector outside said chamber adjacent the other of said windows, said radiation detector having means for producing electrical signals as a result of receiving radiation from said radiation source, said electrical signals having a periodic waveform influenced by said means for periodically pressurizing gas in said chamber; d) means for regulating the radiation energy transfer characteristics of said chamber; and e) means for adjusting said means for regulating whereby a radiation signal produced by a dry gas in said chamber is time variant in the same phase as a radiation signal produced by a gas having a water vapor concentration in said chamber. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. An apparatus for measuring dry gas and water vapor concentrations in a test cell having a gas chamber, comprising:
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a) a cyclical compressor connected to said chamber and having means for periodically pressurizing the gas in said chamber; b) a pair of windows, one on either side of said chamber, thereby to provide a radiation path through said chamber; c) a radiation source outside said chamber adjacent one of said windows, and a radiation detector outside said chamber adjacent the other of said windows, said radiation detector having means for producing electrical signals as a result of receiving radiation from said radiation source; and d) said chamber having interior walls roughened to a sufficient degree so as to obtain from said radiation detector a dry gas signal which is in phase with all water vapor signals. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
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21. In an apparatus for measuring gas concentrations in a gas chamber having interior gas chamber walls, the improvement comprising gas chamber walls roughened to between 15 and 70 microinches.
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22. An apparatus for measuring gas concentrations in a chamber having infrared energy passing therethrough, comprising:
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a) a source of infrared energy positioned proximate said chamber; b) said chamber having windows affixed proximate respective opposite ends positioned to receive and pass said infrared energy; c) an infrared detector positioned proximate one of said windows at a chamber end opposite to the position of said infrared source; d) said chamber having interior walls roughened to between 15 and 70 microinches; e) a metallic block enclosing said chamber and tightly sealed to said windows; and f) means for alternately compressing and decompressing gas in said chamber.
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Specification