Remote hazardous air pullutants monitor
First Claim
1. An apparatus operable to remotely detect the presence of selected atmospheric gases in a sample, comprising:
- an infrared laser operable to emit a laser beam along a sight path intersecting the sample, the laser beam exciting gases in the sample at particular excitation wavelengths, thereby causing the gases to emit light at certain emission wavelengths, and to absorb light at certain absorption wavelengths, the emission wavelengths and the absorption wavelengths being characteristic of particular component gases in the sample;
viewing means directed along the sight path for collecting light from the gases in the sample responsive to the laser beam;
an acousto-optical tunable filter coupled to the viewing means, the tunable filter being operable controllably to diffract light collected by the viewing means for selecting particular optical wavelengths and to direct said particular optical wavelengths onto a detector means; and
,an analyzer coupled to the detector means and to the tunable filter, the analyzer being operable to control the tunable filter for selecting a plurality of said particular optical wavelengths and to discriminate for presence of said particular component gases by determining a characteristic pattern of the emission and absorption wavelengths detected.
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Accused Products
Abstract
Gases such as pollutants are discerned in the open air, preferably using a laser to emit an infrared light beam along a sight path for illuminating the gases. A telescope is directed along the sight path and collects light from the gases, the combination of the laser and telescope permitting redirection of the sight path to any target, such as fugitive emissions of a stack. An optical tunable filter is coupled to the telescope for selecting a particular optical wavelength or band, and focusing the filtered wavelength on a detector. A processor 72) is coupled to the detector output and pulses the laser. The processor analyzes the light levels as a function of wavelength to discriminate for the presence of selected gases by determining a characteristic pattern of light absorption and light emission by the gases. The tunable filter has an acousto-optical crystal of Tl3 AsSe3, in which an RF acoustic wave is generated for varying diffraction of light by the filter, thereby selecting a wavelength. A nonlinear output crystal selectively generates harmonics for increasing wavelength coverage, and can also be Tl3 AsSe3. When the laser is off, the filter acts on infrared emissions of the gases. Sensitivity to narrow emission lines is increased by modulating the RF drive to the tunable filter, producing derivatives of the spectra.
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Citations
19 Claims
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1. An apparatus operable to remotely detect the presence of selected atmospheric gases in a sample, comprising:
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an infrared laser operable to emit a laser beam along a sight path intersecting the sample, the laser beam exciting gases in the sample at particular excitation wavelengths, thereby causing the gases to emit light at certain emission wavelengths, and to absorb light at certain absorption wavelengths, the emission wavelengths and the absorption wavelengths being characteristic of particular component gases in the sample; viewing means directed along the sight path for collecting light from the gases in the sample responsive to the laser beam; an acousto-optical tunable filter coupled to the viewing means, the tunable filter being operable controllably to diffract light collected by the viewing means for selecting particular optical wavelengths and to direct said particular optical wavelengths onto a detector means; and
,an analyzer coupled to the detector means and to the tunable filter, the analyzer being operable to control the tunable filter for selecting a plurality of said particular optical wavelengths and to discriminate for presence of said particular component gases by determining a characteristic pattern of the emission and absorption wavelengths detected. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method for remotely measuring atmospheric gases in a sample, comprising the steps of:
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directing an infrared laser beam through on the sample, so as to excite the sample and cause the sample to emit and to absorb light at particular wavelengths that are characteristic of component molecules in the sample; receiving the light from the sample and applying the light to an acousto-optical tunable filter having means for applying an acoustic wave at a predetermined frequency for diffracting the light into a spectrum, and applying the light to a detector; varying the predetermined frequency to select among a plurality of wavelengths of absorption and emission at the particular wavelengths that are characteristic of the component molecules; measuring a level of the light at said particular wavelengths; analyzing a pattern of the light, at the particular wavelengths for detecting the component molecules in the sample. - View Dependent Claims (11, 12, 13)
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14. A method for remotely measuring atmospheric gases in a sample, comprising the steps of:
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providing an exciting light beam via an infrared laser controllably operable to emit at selected wavelengths, and mounting the laser to emit along a beam path intersecting the sample such that the laser excites component molecules in the sample; receiving infrared radiation from the sample, the infrared radiation having absorption and emission spectra characteristic of the component molecules; applying the infrared radiation to an acousto-optical tunable filter and an associated detector means, and tuning the filter by applying to the filter an acoustic wave at an predetermined frequency to diffract the infrared radiation such that a selected wavelength is applied to the detector means; measuring a level of said infrared radiation at the selected wavelength; tuning the filter by successively applying additional frequencies, measuring the level at the additional selected wavelengths, and proceeding through a set of frequencies sufficient to define the absorption and emission spectra of the sample; and
,determining the component molecules of the sample from the absorption and emission spectra. - View Dependent Claims (15, 16, 17, 18)
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19. An apparatus operable to remotely detect the presence of selected atmospheric gases in a sample,
an infrared laser controllably operable to emit a laser beam along a sight path intersecting the sample, the laser beam having an on-state and an off-state, the laser exciting gases in the sample at particular excitation wavelengths when in the on-state, thereby causing the gases to emit light at certain emission wavelengths, and to absorb light at certain absorption wavelengths, the emission wavelengths and the absorption wavelengths being characteristic of particular component gases in the sample; -
viewing means directed along the sight path for collecting light from the gases in the sample responsive to the laser beam; an acousto-optical tunable filter coupled to the viewing means, the tunable filter being operable controllably to diffract light collected by the viewing means for selecting particular optical wavelengths and to direct said particular optical wavelengths onto a detector; an analyzer coupled to the detector and to the tunable filter, the analyzer being operable to control the tunable filter for selecting a plurality of said particular optical wavelengths and to discriminate for presence of said particular component gases by determining a characteristic pattern of the emission and absorption wavelengths detected; and
,wherein the analyzer is operable to collect the emission wavelengths during the off-state of the laser.
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Specification