Gas analyzer

US 4,063,094 A
Filed: 10/17/1966
Issued: 12/13/1977
Est. Priority Date: 10/17/1966
Status: Expired due to Term

First Claim

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1. Apparatus for detecting the presence of chemical substances in a gaseous medium by detection of characteristic infrared spectral wavelengths of radiant energy emitted therefrom, said apparatus comprising a variable volume optical cavity;

said optical cavity having highly reflective surfaces arranged to provide random optical paths for said emitted radiant energy;

means for cyclically varying the volume of said cavity for adiabatic compression and expansion of a sample of said gaseous medium within said cavity, so that the temperature of said sample varies substantially as TV.sup.γ

-1 = K, where T is the temperature, V the volume, and γ

the ratio of specific heat at constant pressure and specific heat at constant volume of said sample, and K is a constant; and

means for detecting radiant energy emitted at the characteristic infrared emission wavelength of the substance or substances sought to be detected, emanating from said sample as a result of said temperature variation;

said optical cavity comprising a hollow cylinder having an end wall, said means for cyclically varying the cavity volume including a hollow gas centered piston reciprocable inwardly and outwardly of said cylinder and having a face in confronting relationship and forming with said end wall a cavity of high volume-to-surface area ratio at maximum compression of said sample.

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Abstract

Presence of a substance in a gaseous medium is detected by introducing a sample of the gaseous medium under consideration into a variable volume cavity formed by the walls of a cylinder and the operating face of a piston reciprocable in the cylinder, the adiabatically compressing the gas in the cavity by cyclic reciprocation of the piston to increase the temperature of the gas and thereby cause emission of radiant energy by constituents of the gas sample at their respective characteristic emission spectra. The emissions are modulated in accordance with the recurrent variation of volume of the cavity. The piston is gas-centered during operation to inhibit sliding contact between surfaces and thereby permit oilless and powderless operation which would otherwise present contaminants tending to interfere with detection of the substances of interest. A portion of the wall of the cavity has a multi-layer composition that cancels greybody signals resulting from movement of the piston and presence of interfering substances, and initial calibration is achieved by insertion into the cavity of a material whose emission spectrum is known in advance.

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10 Claims

1. Apparatus for detecting the presence of chemical substances in a gaseous medium by detection of characteristic infrared spectral wavelengths of radiant energy emitted therefrom, said apparatus comprising a variable volume optical cavity;
- said optical cavity having highly reflective surfaces arranged to provide random optical paths for said emitted radiant energy;
  
  means for cyclically varying the volume of said cavity for adiabatic compression and expansion of a sample of said gaseous medium within said cavity, so that the temperature of said sample varies substantially as TV.sup.γ
  
  -1 = K, where T is the temperature, V the volume, and γ
  
  the ratio of specific heat at constant pressure and specific heat at constant volume of said sample, and K is a constant; and
  
  means for detecting radiant energy emitted at the characteristic infrared emission wavelength of the substance or substances sought to be detected, emanating from said sample as a result of said temperature variation;
  
  said optical cavity comprising a hollow cylinder having an end wall, said means for cyclically varying the cavity volume including a hollow gas centered piston reciprocable inwardly and outwardly of said cylinder and having a face in confronting relationship and forming with said end wall a cavity of high volume-to-surface area ratio at maximum compression of said sample.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The combination according to claim 1 wherein said cavity is cylindrical and has a length equal to its diameter at said maximum compression, to provide said high volume-to-surface area ratio.
  - 3. The combination according to claim 1 wherein said hollow piston includes a check valve in the wall thereof communicating with said cavity for introducing a portion of the gas in said cavity into the chamber of said piston, and having a porous wall in confronting relationship with the cylindrical internal surface of said cylinder to provide high pressure outlets for the gas in said piston chamber for aligning the axis of said piston in substantial coincidence with the axis of said cylinder, the outer diameter of said piston being less than the inner diameter of said cylinder so that an annular gap is formed between said piston and said cylinder upon said alignment.
  - 4. The combination according to claim 1 wherein said apparatus includes an intake system for introducing said sample into said cavity, said intake system including means for filtering particulate matter from the incoming sample, and a bypass valve communicating with said cavity and said filtering means to direct gas under pressure from said cavity onto said filtering means for cleaning conglomerated particulate matter therefrom.
  - 5. The combination according to claim 1 further including means for cancelling the in-phase greybody signal accompanying reciprocation of said piston within said cylinder, said cancelling means comprising a multi-layer coating applied to at least a portion of the surfaces forming said cavity, the outer layer being transparent and the layer adjacent thereto being metallic, the layers having thickness selected to produce emission of a greybody signal by said metallic layer tending to cancel said in-phase greybody signal.
  - 6. The combination according to claim 1 further including means for calibrating said detecting means for quantitative measurement of concentrations of said chemical substances in the samples under test, said calibrating means comprising a relatively thin piece of spectral material projecting into said cavity, and means for variably adjusting the amount of projection of said spectral material into said cavity.
  - 7. The combination according to claim 3 wherein said piston chamber has a volume on the order of 20 percent of the volume of said cavity at maximum compression of said sample.
  - 8. The combination according to claim 1 wherein said detecting means includes a pair of radiant energy detectors for receiving emissions from said cavity, and wherein is further included means for cancelling the in-phase greybody signal accompanying reciprocation of said piston within said cylinder, said cancelling means comprising a multi-layer coating applied to at least a portion of the surfaces forming said cavity, the outer layer being transparent and the layer adjacent thereto being metallic, the layers having thicknesses selected to produce emission of a greybody signal by said metallic layer, the last-named emission having a 90°
    - out-of-phase component sufficient to equalize the responsivities of said two detectors to in-phase greybody signals.

9. Apparatus for detecting the presence and concentration of chemical substances in a gaseous medium by observation of characteristic infrared spectral wavelengths of radiant energy emitted therefrom, said apparatus comprisinga variable volume optical cavity having highly reflective surfaces arranged to provide random optical paths for said emitted radiant energy, said cavity comprising a hollow cylinder having an end wall, and further including means for reducing greybody signal accompanying variation of the volume of said cylinder,means for introducing a sample of said gaseous medium into said cavity,a hollow piston reciprocable within said cylinder to cyclically vary the volume of said cavity, for substantially adiabatic compression and expansion of said sample so that increase in temperature of said sample during compression thereof to produce radiant energy emissions from constituents thereof is a function of the decrease in volume of said cavity, said piston containing a chamber having a gas-pervious cylindrical wall adjacent the cylindrical surface of said cylinder,a check valve in said piston to permit introduction of a portion of the gaseous sample in said cylinder into said piston chamber during the compression stroke of said piston, whereby controlled leakage of the portion of said sample in the chamber through the gas-pervious wall thereof produces gas centering of said piston relative to said cylinder during reciprocation, andmeans responsive to radiant energy emitted at the characteristic infrared emission spectrum of the substance of interest for detecting said presence thereof.
- View Dependent Claims (10)
- - 10. The invention according to claim 9 further including means in said cavity for calibrating said detecting means to permit quantitative measurement of concentration of said substance of interest in the sample under test.

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Current Assignee
American Standard Companies Incorporated (Ideal Standard International Topco SCA)
Original Assignee
American Standard Companies Incorporated (Ideal Standard International Topco SCA)
Inventors
Schuman, Mark
Primary Examiner(s)
Buczinski, S. C.

Application Number

US04/587,054
Time in Patent Office

4,075 Days
Field of Search

250/83.3 IR, 250/361, 250/343, 250/344, 250/345, 250/338, 250/339, 250/337, 250/336, 73/25, 73/26, 356/81, 356/85
US Class Current

250/338.1
CPC Class Codes

G01N 21/3518 Devices using gas filter co...

Gas analyzer

First Claim

4 Assignments

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Accused Products

Abstract

10 Citations

10 Claims

Specification

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Gas analyzer

First Claim

4 Assignments

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Subscription Required

0 Petitions

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Accused Products

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Abstract

10 Citations

10 Claims

Specification

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Use Cases

Quick Links

Others