Inner Temperature Measurement of Combustion Gas by Using Infrared Emission Computed Tomography

Author

Ito, Tadashi ; Masuda, Kinnosuke ; Nakazawa, Takeshi

Author_Institution

Dept. of Electron. Eng., Gunma Univ., Kiryu

fYear

2006

Firstpage

3342

Lastpage

3345

Abstract

We have developed a reconstruction algorithm for non-contact measurement of temperature and absorption of combustion gas distributed in a flame. To get accurate temperature distribution of the combustion gas, the absorption of the gas must be known. We achieve this by obtaining the projections of thermal radiation from the flame and an external radiation source which is turned on and off while obtaining projections. We can reconstruct the distribution from the projections by using an emission computed tomography (CT) algorithm. We have developed a prototype measurement system and made some experiments to measure temperature and absorption distribution of methane-air flame of a Bunsen burner

Keywords

combustion; computerised tomography; flames; gallium arsenide; heat radiation; indium compounds; radiometry; spectral methods of temperature measurement; temperature distribution; temperature measurement; Bunsen burner; InGaAs array sensor; combustion gas; external radiation source; gas absorption; infrared emission computed tomography; methane-air flame; noncontact temperature measurement; radio-thermometry; reconstruction algorithm; spectral absorption; temperature distribution; thermal radiation; Combustion; Computed tomography; Electromagnetic wave absorption; Fires; Optical attenuators; Optical sensors; Pollution measurement; Sensor arrays; Temperature distribution; Temperature measurement; InGaAs array sensor; radio-thermometry; spectral absorption;

fLanguage

English

Publisher

ieee

Conference_Titel

SICE-ICASE, 2006. International Joint Conference

Conference_Location

Busan

Print_ISBN

89-950038-4-7

Electronic_ISBN

89-950038-5-5

Type

conf

DOI

10.1109/SICE.2006.315067

Filename

4108335