An exhaust gas analysis method comprises applying a laser beam to the exhaust gas discharged from an internal combustion engine, receiving the laser beam that has passed through the exhaust gas, and measuring the concentration of any of the components contained in the exhaust gas based on the receiv
An exhaust gas analysis method comprises applying a laser beam to the exhaust gas discharged from an internal combustion engine, receiving the laser beam that has passed through the exhaust gas, and measuring the concentration of any of the components contained in the exhaust gas based on the received laser beam. The exhaust gas analysis method further comprises detecting the absorption spectrum of the laser beam absorbed in the exhaust gas by using the received laser beam, calculating the concentration of the specific gas component by using the absorption spectrum, calculating the temperature of the exhaust gas by using the absorption spectrum, calculating the pressure of the exhaust gas by using the absorption spectrum, correcting the calculated concentration of the component contained in the exhaust gas by using the calculated temperature, correcting the concentration by using the calculated pressure, and outputting the true concentration value.
대표청구항▼
1. An exhaust gas analysis method, comprising: applying a laser beam from a laser beam generator of an exhaust gas analysis apparatus to the exhaust gas discharged from an internal combustion engine;receiving, at a laser beam receiver of the exhaust gas analysis apparatus, the laser beam that has pa
1. An exhaust gas analysis method, comprising: applying a laser beam from a laser beam generator of an exhaust gas analysis apparatus to the exhaust gas discharged from an internal combustion engine;receiving, at a laser beam receiver of the exhaust gas analysis apparatus, the laser beam that has passed through the exhaust gas; andmeasuring a concentration of any of the components contained in the exhaust gas based on the received laser beam,wherein the measuring comprises:detecting an absorption spectrum of the laser beam absorbed in the exhaust gas by using the received laser beam,calculating the concentration of the component contained in the exhaust gas, the temperature of the exhaust gas, and the pressure of the exhaust gas by using the absorption spectrum without using a pressure sensor, wherein the exhaust gas temperature is calculated from the ratio between the transmitted light intensities at least two wavelengths selected from the absorption spectrum for H2O, wherein the exhaust gas pressure is calculated based on the spectrum width at the peak wavelength in the absorption spectrum for H2O, andcorrecting the calculated concentration of the component contained in the exhaust gas by using the calculated exhaust gas temperature and the calculated exhaust gas pressure,wherein the measuring is performed by the exhaust gas analysis apparatus. 2. An exhaust gas analysis method, comprising: applying a laser beam from a laser beam generator of an exhaust gas analysis apparatus to the exhaust gas discharged from an internal combustion engine;receiving, at a laser beam receiver of the exhaust gas analysis apparatus, the laser beam that has passed through the exhaust gas; andmeasuring a concentration of any of the components contained in the exhaust gas based on the received laser beam,wherein the measuring comprises:detecting an absorption spectrum of the laser beam absorbed in the exhaust gas by using the received laser beam;calculating the concentration of the component contained in the exhaust gas, the temperature of the exhaust gas, and the pressure of the exhaust gas by using the absorption spectrum without using a pressure sensor;calculating a concentration correction value based on not only a theoretical spectrum determined by the exhaust gas temperature, the exhaust gas pressure, and the concentration of the component contained in the exhaust gas that have been calculated from the absorption spectrum but also the detected absorption spectrum, wherein the exhaust gas temperature is calculated from the ratio between the transmitted light intensities at least two wavelengths selected from the absorption spectrum for H2O, wherein the exhaust gas pressure is calculated based on the spectrum width at the peak wavelength in the absorption spectrum for H2O; andcorrecting the calculated concentration of the component contained in the exhaust gas by using the correction value,wherein the measuring is performed by the exhaust gas analysis apparatus. 3. The exhaust gas analysis method according to claims 1 or 2, wherein the calculation of the concentration of the component contained in the exhaust gas comprises preparing a plurality of spectrum patterns obtained by changing the theoretical spectrum of the specific component of the exhaust gas to be analyzed according to the concentration of the component, and calculating the concentration from the exhaust gas concentration for the nearest approximate spectrum pattern. 4. An exhaust gas analysis apparatus that applies a laser beam generated in laser beam generation means to the exhaust gas discharged from an internal combustion engine, receives the laser beam that has passed through the exhaust gas, and measures the concentration of any of the components contained in the exhaust gas based on the received laser beam, comprising: detection means for detecting an absorption spectrum of the laser beam absorbed in the exhaust gas by using the received laser beam;calculation means for calculating the concentration of the component contained in the exhaust gas, the temperature of the exhaust gas, and the pressure of the exhaust gas by using the absorption spectrum, wherein the exhaust gas temperature is calculated from the ratio between the transmitted light intensities at least two wavelengths selected from the absorption spectrum for H2O, wherein the exhaust gas pressure is calculated based on the spectrum width at the peak wavelength in the absorption spectrum for H2O; andcorrection means for correcting the calculated concentration of the component contained in the exhaust gas by using the calculated exhaust gas temperature and the calculated exhaust gas pressure,wherein the exhaust gas analysis apparatus lacks a pressure sensor. 5. An exhaust gas analysis apparatus that applies a laser beam generated in laser beam generation means to the exhaust gas discharged from an internal combustion engine, receives the laser beam that has passed through the exhaust gas, and measures the concentration of any of the components contained in the exhaust gas based on the received laser beam, comprising: detection means for detecting an absorption spectrum of the laser beam absorbed in the exhaust gas by using the received laser beam;calculation means for calculating the concentration of the component contained in the exhaust gas, the temperature of the exhaust gas, and the pressure of the exhaust gas by using the absorption spectrum, wherein the exhaust gas temperature is calculated from the ratio between the transmitted light intensities at least two wavelengths selected from the absorption spectrum for H2O, wherein the exhaust gas pressure is calculated based on the spectrum width at the peak wavelength in the absorption spectrum for H2O,the calculation means further calculating a concentration correction value based on not only a theoretical spectrum determined by the calculated exhaust gas temperature, exhaust gas pressure, and concentration of the component of the exhaust gas but also the detected absorption spectrum; andcorrection means for correcting the calculated concentration of the component contained in the exhaust gas by using the correction value,wherein the exhaust gas analysis apparatus lacks a pressure sensor.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (10)
Huiku Matti,FIX, Accurate measurement for the concentration of a gas component in a gas mixture, wherein other components influence the concentration analysis.
Jowett Terence W. (Avon CT) Knights Anthony D. M. (Longmeadow MA) Cross Thomas A. (Winsted CT), Exhaust gas analyzer having pressure and temperature compensation.
Gordon Eugene I. (Mountainside NJ), Periodically alternating path and alternating wavelength bridges for quantitative and ultrasensitive measurement of vapo.
Cooper David E. (Palo Alto CA) ver der Laan Jan E. (Palo Alto CA) Riris Haris (Menlo Park CA) Carlisle Clinton B. (Menlo Park CA), Pressure- and temperature-compensating oxygen sensor.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.