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Laser absorption spectrum tomography system for axisymmetric combustion field monitoring

A technology of laser absorption spectroscopy and tomography, which is applied in the direction of color/spectral characteristic measurement, measuring device, heat measurement, etc., can solve the problems of limited number of detectors, low spatial resolution, affecting flame stability, etc., and achieve modulation Fast speed, solution to uneven response characteristics, and improved accuracy

Active Publication Date: 2019-02-12
BEIHANG UNIV
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Problems solved by technology

However, there are some problems in the above methods, such as, placing the burner on the displacement platform will affect the stability of the flame; the use of the rotating platform and the mirror makes the optical structure complex and the scanning speed is slow; the detector array is limited due to the limited number of detectors. Therefore, the spatial resolution is not high

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  • Laser absorption spectrum tomography system for axisymmetric combustion field monitoring
  • Laser absorption spectrum tomography system for axisymmetric combustion field monitoring

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Embodiment Construction

[0014] exist figure 1 Among them, the laser light source (102) and the scanning galvanometer (103) are placed at one end of the measured combustion field (101), and the fiber bundle (104), integrating sphere (105) and photodetector (106) are placed at the other end; the fiber bundle The (104) outlet is connected to the inlet of the integrating sphere (105), and the photodetector (106) is placed at the outlet of the integrating sphere (105), and the output signal of the photodetector (106) is collected by the data acquisition module (107).

[0015] Step 1: The laser light source is irradiated on the scanning galvanometer, and after being reflected by the scanning galvanometer, the laser passes through the measured combustion field and irradiates onto the fiber bundle. By deflecting the scanning galvanometer, the laser is scanned to each spatial position of the fiber bundle. form a fan beam;

[0016] Step 2: Place an integrating sphere at the exit of the fiber bundle. After the...

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Abstract

The invention designs a laser absorption spectrum tomography system for axisymmetric combustion field monitoring. Elements include a laser light source, a scanning galvanometer, an optical fiber bundle, an integrating sphere, a photoelectric detector, a data acquisition module and the like, wherein the laser light source is irradiated on the scanning galvanometer, passes through a measured combustion field after being reflected by the scanning galvanometer, and is irradiated onto the optical fiber bundle; the integrating sphere is placed at an outlet of the optical fiber bundle; the photoelectric detector is placed at an outlet of the integrating sphere to receive a signal; the data acquisition module is used for acquiring spectral absorption data after laser light passes through the measured combustion field; and temperature distribution and concentration distribution of the combustion field in a measurement area are obtained through resolving. The system is simple in structure and convenient to operate, and has relatively high useful values and wide application prospects in the field of combustion diagnosis.

Description

(1) Technical field [0001] The invention relates to a laser absorption spectrum tomography imaging system for monitoring an axisymmetric combustion field, which is applied in the technical field of combustion diagnosis. (2) Background technology [0002] Axisymmetric combustion fields widely exist in industrial production, scientific research and other fields. Accurate measurement of the temperature and component concentration of axisymmetric combustion fields is of great significance for optimizing burner design, improving combustion efficiency, and reducing pollution emissions. For this reason, researchers have proposed a series of measurement methods, which are mainly divided into two types: contact measurement and non-contact measurement: contact methods mainly include thermocouple method, gas analysis method, etc. However, these methods have poor real-time performance and damage to the flow field. Disadvantages: Non-contact methods are mainly optical measurement methods...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N21/39G01K11/00
CPCG01K11/006G01N21/39
Inventor 曹章徐立军解恒汤晓阳
Owner BEIHANG UNIV
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