Scanning IR sensor for gas safety and emissions monitoring
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01N-021/35
G01N-021/3518
G01F-001/76
G01N-021/3504
G01M-003/38
출원번호
US-0923794
(2018-03-16)
등록번호
US-10190976
(2019-01-29)
발명자
/ 주소
Waxman, Allen M.
Bylsma, Jason M.
Vaitses, Allan
출원인 / 주소
MultiSensor Scientific, Inc.
대리인 / 주소
Choate, Hall & Stewart LLP
인용정보
피인용 횟수 :
0인용 특허 :
14
초록▼
Apparatus and methods for rapidly detecting, localizing, imaging, and quantifying leaks of natural gas and other hydrocarbon and greenhouse gases. Scanning sensors, scan patterns, and data processing algorithms enable monitoring a site to rapidly detect, localize, image, and quantify amounts and rat
Apparatus and methods for rapidly detecting, localizing, imaging, and quantifying leaks of natural gas and other hydrocarbon and greenhouse gases. Scanning sensors, scan patterns, and data processing algorithms enable monitoring a site to rapidly detect, localize, image, and quantify amounts and rates of hydrocarbon leaks. Multispectral short-wave infrared detectors sense non-thermal infrared radiation from natural solar or artificial illumination sources by differential absorption spectroscopy. A multispectral sensor is scanned to envelop an area of interest, detect the presence and location of a leak, and raster scan the area around the leak to create an image of the leak. The resulting absorption image related to differential spectral optical depth is color mapped to render the degree of gas absorption across the scene. Analysis of this optical depth image, with factors including known inline pressures and/or surface wind speed measurements, enable estimation of the leak rate, i.e., emission mass flux of gas.
대표청구항▼
1. A method for characterizing the mass flow of hydrocarbon gas emissions of a hydrocarbon of interest from an aperture or surface, the hydrocarbon of interest being at a substantially known or measured pressure prior to being emitted from the aperture or surface, the method comprising: a. obtaining
1. A method for characterizing the mass flow of hydrocarbon gas emissions of a hydrocarbon of interest from an aperture or surface, the hydrocarbon of interest being at a substantially known or measured pressure prior to being emitted from the aperture or surface, the method comprising: a. obtaining a differential absorption image of the gas emissions using a multispectral imaging sensor comprising i. plural discrete photo-detectors, each responsive to light in a wavelength range of 1.0 to 2.6 microns, each photo-detector having a respective electronic read-out circuit for providing respective outputs,ii. plural spectral filters, each spectral filter substantially covering a respective photo-detector and being transmissive to light of wavelengths spanned by a spectral feature of a hydrocarbon compound of interest,iii. an optical element for gathering and focusing incident illumination at least in a wavelength range of 1.0 to 2.6 microns through each of the plural spectral filters and onto the respective discrete photo-detector for the discrete photo-detectors to sense the filtered incident illumination;iv. a scanning actuator for causing the incident illumination to be received in a two-dimensional scan pattern,v. at least one signal integration and conversion circuit in communication with the read-out circuits for selectively integrating, amplifying, and digitizing the read-out circuit outputs,vi. at least one scan control circuit in communication with the scanning actuator for controlling the scanning actuator and the at least one signal integration and conversion circuit for generating, by the at least one signal integration and conversion circuit, a sequence of two-dimensional data elements from the integrated, amplified, and digitized read-out circuit outputs for each of multiple spectral bands in coordination with the scan pattern, andvii. a processor in communication with the at least one signal integration and conversion circuit for I. receiving the generated data elements and a value representative of a distance between the photo-detectors and a reflective calibration target for calibrating the data elements of each spectral band relative to data elements associated with a spectral feature of a hydrocarbon compound of interest, by determining calibration parameters comprising a). a dark level offset for each spectral band,b). a relative gain for data elements of interest between spectral bands, andc). a relative absorption coefficient for each spectral band characterizing the local atmosphere across multiple spectral bands, andII. adapting the relative gain across spectral bands, using the generated data elements and the calibration parameters, to spectral reflectivities of background materials within the environment, and determining a differential optical depth among spectral bands for assessing absorption by hydrocarbons along said scan pattern; andb. estimating the diameter of a substantially round aperture from which the hydrocarbon gas is emitted or the mass flow rate of said hydrocarbon of interest based upon at least one of i. a relationship between the average differential optical depth along the gas jet extrapolated to the vertex of the gas jet and the substantially known or measured pressure with respect to the diameter or area of the aperture from which the hydrocarbon gas is emitted,ii. a relationship between the substantially known or measured pressure and the mass flow of the hydrocarbon gas emitted from the aperture of inferred diameter or area,iii. a relationship between the differential optical depth and the mass flow per unit area of the hydrocarbon gas emitted from a surface of limited extent under a substantially steady wind of measured speed and direction,iv. a relationship between the differential optical depth, a rate of change of the differential optical depth, and a mass flow per unit area of the hydrocarbon gas emitted from the surface of limited extent under a substantially steady wind of measured speed and direction following a wind gust, andv. a relationship between the differential optical depth derived at a height H above a wide-area surface from which the hydrocarbon gas is emitted and the mass flow per unit area of the hydrocarbon gas emitted from the surface under the influence of buoyancy. 2. The method of claim 1, wherein the spectral feature of the hydrocarbon of interest is at least ten nanometers. 3. The method of claim 1, wherein the transmissive wavelengths of each spectral filter do not overlap with the transmissive wavelengths of other filters. 4. The method of claim 1, wherein the scanning actuator is selected from the group consisting of resonant oscillating mirrors, galvanometric driven mirrors, rotating multi-faceted mirrors, electrically actuated micro-mirror arrays, electrically controlled rotation stages, and a dual-axis pan-tilt unit, to scan at least in two perpendicular directions. 5. The method of claim 1, wherein the at least one scan control circuit is in communication with the scanning actuator to cause the incident illumination to be received from a two-dimensional scan pattern selected from the group consisting of open scan paths, closed scan paths, and raster scan paths. 6. The method of claim 1, further comprising a frame for physically maintaining the plural spectral filters with respect to the plural discrete photo-detectors, whereby light passes through each spectral filter before impinging upon the respective discrete photo-detector. 7. The method of claim 1, wherein the optical element comprises at least one of a lens, a curved mirror, and a diffractive surface.
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이 특허에 인용된 특허 (14)
Moore Gerald (Boggs Township ; Armstrong County PA) Hawley James G. (San Jose CA) Bradley William C. (Gastonia NC) Harper Brian M. (Wildmoor GB2), Apparatus for imaging gas.
Noack Jean-Claude (Cabries FRX) Guern Yves (Jouques FRX) Pelous Grard (Aix en Provence FRX), Method and apparatus for remote optical detection of a gas present in an observed volume.
Komninos Nikolaos I. (2802-B W. Long Dr. Littleton CO 80120), Signal detector and method for detecting signals having selected frequency characteristics.
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