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Gas concentration and temperature distribution reconstruction is realized based on tunable diode laser absorption spectroscopy. A measurement system using wavelength multiplexing technology with four absorption transitions is designed to reduce the number of projections and enrich the gas absorption measurement data. According to the nonlinear system established, a hybrid algorithm based on genetic algorithm and simulated annealing algorithm is introduced to obtain the global optimization and improve the search efficiency. A model for H2O concentration and temperature distribution in combustion is assumed, and numerical simulation is utilized to reconstruct the images with the transitions within 1.3—1.5 μm range. Both concentration and temperature distribution reconstruction results are in agreement with the model. The influence of random errors in projections on reconstruction is also analyzed. The increased error in projection would lead to larger mean square error of temperature reconstruction results, but little affect the concentration reconstruction results.
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Keywords:
- laser absorption spectroscopy /
- tunable diode laser /
- genetic simulated annealing algorithm /
- gas distribution reconstruction
[1] Carey S J, McCann H, Hindle F P, Ozanyan K B, Winterbone D E, Clough E 2000 Chem. Engng. J. 77 111
[2] Zhang F Y, Fujiwara T, Komurasaki K 2001 Appl. Opt. 40 957
[3] Wolfe D C, Jr. Byer R L 1982 Appl. Opt. 21 1165
[4] Todd L A, Bhattacharyya R 1997 Appl. Opt. 36 7678
[5] Emmerman P J, Goulard R, Santoro R J, Semerjian H G 1980 J. Energy 4 70
[6] Chung K B, Gouldin F C, Wolga G J 1995 Appl. Opt. 34 5492
[7] Gillet B, Hardalupas Y, Kavounides C, Taylor A M K P 2004 Appl. Therm. Engng. 24 1633
[8] Wright P, Garcia-Stewart C A, Carey S J, Hindle F P, Pegrum S H, Colbourne S M, Turner P J, Hurr W J, Litt T J, Murray S C, Crossley S D, Ozanyan K B, McCann H 2005 Appl. Opt. 44 6578
[9] Ma L, Cai W W 2008 Appl. Opt. 47 3751
[10] Ma L, Cai W W, Caswell A W, Kraetschmer T, Sanders S T, Roy S, Gord J R 2009 Opt. Express 17 8602
[11] Wang F, Huang Q X, Li N, Yan J H, Chi Y, Cen K F 2007 Acta Phys. Sin. 56 3867 (in Chinese)[王 飞、 黄群星、 李 宁、 严建华、 池 涌、 岑可法 2007 56 3867]
[12] Kan R F, Liu W Q, Zhang Y J, Liu J G, Dong F Z, Gao S H, Wang M, Chen J 2005 Acta Phys. Sin 54 1927 (in Chinese)[阚瑞峰、 刘文清、 张玉钧、 刘建国、 董凤忠、 高山虎、 王 敏、 陈 军 2005 54 1927]
[13] Kan R F, Dong F Z, Zhang Y J, Liu J G, Liu C, Wang M, Gao S H, Chen J 2005 Chin. Phys. 14 1904
[14] Shao J, Zhang W J, Gao X M, Ning L X, Yuan Y Q 2005 Chin. Phys. 14 482
[15] Teichert H, Fernholz T, Ebert V 2003 Appl. Opt. 42 2043
[16] Liu J T C, Jeffries J B, Hanson R K 2004 Appl. Phy. B 78 503
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[1] Carey S J, McCann H, Hindle F P, Ozanyan K B, Winterbone D E, Clough E 2000 Chem. Engng. J. 77 111
[2] Zhang F Y, Fujiwara T, Komurasaki K 2001 Appl. Opt. 40 957
[3] Wolfe D C, Jr. Byer R L 1982 Appl. Opt. 21 1165
[4] Todd L A, Bhattacharyya R 1997 Appl. Opt. 36 7678
[5] Emmerman P J, Goulard R, Santoro R J, Semerjian H G 1980 J. Energy 4 70
[6] Chung K B, Gouldin F C, Wolga G J 1995 Appl. Opt. 34 5492
[7] Gillet B, Hardalupas Y, Kavounides C, Taylor A M K P 2004 Appl. Therm. Engng. 24 1633
[8] Wright P, Garcia-Stewart C A, Carey S J, Hindle F P, Pegrum S H, Colbourne S M, Turner P J, Hurr W J, Litt T J, Murray S C, Crossley S D, Ozanyan K B, McCann H 2005 Appl. Opt. 44 6578
[9] Ma L, Cai W W 2008 Appl. Opt. 47 3751
[10] Ma L, Cai W W, Caswell A W, Kraetschmer T, Sanders S T, Roy S, Gord J R 2009 Opt. Express 17 8602
[11] Wang F, Huang Q X, Li N, Yan J H, Chi Y, Cen K F 2007 Acta Phys. Sin. 56 3867 (in Chinese)[王 飞、 黄群星、 李 宁、 严建华、 池 涌、 岑可法 2007 56 3867]
[12] Kan R F, Liu W Q, Zhang Y J, Liu J G, Dong F Z, Gao S H, Wang M, Chen J 2005 Acta Phys. Sin 54 1927 (in Chinese)[阚瑞峰、 刘文清、 张玉钧、 刘建国、 董凤忠、 高山虎、 王 敏、 陈 军 2005 54 1927]
[13] Kan R F, Dong F Z, Zhang Y J, Liu J G, Liu C, Wang M, Gao S H, Chen J 2005 Chin. Phys. 14 1904
[14] Shao J, Zhang W J, Gao X M, Ning L X, Yuan Y Q 2005 Chin. Phys. 14 482
[15] Teichert H, Fernholz T, Ebert V 2003 Appl. Opt. 42 2043
[16] Liu J T C, Jeffries J B, Hanson R K 2004 Appl. Phy. B 78 503
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