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Three-dimensional (3D) flame soot temperature and volume fraction distributions are simultaneously reconstructed experimentally by the simultaneous reconstruction model through using charge-coupled device cameras. The reconstruction model is based on the area reconstruction. The reconstructed 3D soot temperatures and volume fraction distributions are compared with those reported in the literature. The reconstructed temperatures are also compared with those measured by thermocouples. It is shown that the reconstructed temperature distribution and the volume fraction distribution are consistent with the reported results. The reconstructed temperatures in good agreemant with the measured temperatures by thermocouples. So the simultaneous reconstruction model can obtain the soot temperature and volume fraction distributions successfully.
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Keywords:
- flame soot /
- temperature /
- volume fraction /
- three-dimensional simultaneous reconstruction
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[2] Greenberg P S, Ku J C 1997 Appl. Opt. 36 5514
[3] Greenberg P S, Ku J C 1997 Combust. Flame 108 227
[4] De Iuliis S, Barbini M, Benecchi S, Cignoli F, Zizak G 1998 Combust. Flame 115 253
[5] Cignoli F, De Iuliis S, Manta V, Zizak G 2001 Appl. Opt. 40 5370
[6] De Iuliis S, Migliorini F, Cignoli F, Zizak G 2007 Proc. Combust. Inst. 31 869
[7] Snelling D R, Thomson K A, Smallwood G J, Gülder L 1999 Appl. Opt. 38 2478
[8] Snelling D R, Thomson K A, Smallwood G J, Gülder L, Weckman E J, Fraser R A 2002 Am. Inst. Aeronaut. Astronaut. J. 40 1789
[9] Thomson K A, Gülder L, Weckman E J, Fraser R A, Smallwood G J, Snelling D R 2005 Combust. Flame 140 222
[10] Thomson K A, Johnson M R, Snelling D R, Smallwood G J 2008 Appl. Opt. 47 694
[11] Huang Q X, Wang F, Liu D, Ma Z Y, Yan J H, Chi Y, Cen K F 2009 Combust. Flame 156 565
[12] Liu D, Wang F, Huang Q X, Yan J H, Chi Y, Cen K F 2008 Chin. Phys. B 17 1312
[13] Liu D, Wang F, Yan J H, Huang Q X, Chi Y, Cen K F 2008 Int. J. Heat Mass Transfer 51 3434
[14] Liu D, Wang F, Huang Q X, Yan J H, Chi Y, Cen K F 2008 Acta Phys. Sin. 57 4812 (in Chinese) [刘 冬、 王 飞、 黄群星、 严建华、 池 涌、 岑可法 2008 57 4812]
[15] Liu D, Wang F, Cen K F, Yan J H, Huang Q X, Chi Y 2008 Opt. Lett. 33 422
[16] Liu D, Yan J H, Wang F, Huang Q X, Chi Y, Cen K F 2010 Int. J. Heat Mass Transfer 53 4474
[17] Wang F, Liu D, Cen K F, Yan J H, Huang Q X, Chi Y 2008 J. Quant. Spectrosc. Radiat. Transf. 109 2171
[18] Liu D, Huang Q X, Ma Z Y, Wang F, Yan J H, Chi Y, Cen K F 2010 J. Heat Transfer 132 061202
[19] Modest M F 2003 Radiative Heat Transfer (2nd Ed.) (San Diege: Academic Press)
[20] Chang H, Charalampopoulos T T 1990 Proc. Roy. Soc. Lond. A 430 577
[21] Paige C C, Saunders M A 1982 AMC Trans. Math. 8 43
[22] Paige C C, Saunders M A 1982 AMC Trans. Math. 8 195
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[1] Hall R J, Bonczyk P A 1990 Appl. Opt. 29 4590
[2] Greenberg P S, Ku J C 1997 Appl. Opt. 36 5514
[3] Greenberg P S, Ku J C 1997 Combust. Flame 108 227
[4] De Iuliis S, Barbini M, Benecchi S, Cignoli F, Zizak G 1998 Combust. Flame 115 253
[5] Cignoli F, De Iuliis S, Manta V, Zizak G 2001 Appl. Opt. 40 5370
[6] De Iuliis S, Migliorini F, Cignoli F, Zizak G 2007 Proc. Combust. Inst. 31 869
[7] Snelling D R, Thomson K A, Smallwood G J, Gülder L 1999 Appl. Opt. 38 2478
[8] Snelling D R, Thomson K A, Smallwood G J, Gülder L, Weckman E J, Fraser R A 2002 Am. Inst. Aeronaut. Astronaut. J. 40 1789
[9] Thomson K A, Gülder L, Weckman E J, Fraser R A, Smallwood G J, Snelling D R 2005 Combust. Flame 140 222
[10] Thomson K A, Johnson M R, Snelling D R, Smallwood G J 2008 Appl. Opt. 47 694
[11] Huang Q X, Wang F, Liu D, Ma Z Y, Yan J H, Chi Y, Cen K F 2009 Combust. Flame 156 565
[12] Liu D, Wang F, Huang Q X, Yan J H, Chi Y, Cen K F 2008 Chin. Phys. B 17 1312
[13] Liu D, Wang F, Yan J H, Huang Q X, Chi Y, Cen K F 2008 Int. J. Heat Mass Transfer 51 3434
[14] Liu D, Wang F, Huang Q X, Yan J H, Chi Y, Cen K F 2008 Acta Phys. Sin. 57 4812 (in Chinese) [刘 冬、 王 飞、 黄群星、 严建华、 池 涌、 岑可法 2008 57 4812]
[15] Liu D, Wang F, Cen K F, Yan J H, Huang Q X, Chi Y 2008 Opt. Lett. 33 422
[16] Liu D, Yan J H, Wang F, Huang Q X, Chi Y, Cen K F 2010 Int. J. Heat Mass Transfer 53 4474
[17] Wang F, Liu D, Cen K F, Yan J H, Huang Q X, Chi Y 2008 J. Quant. Spectrosc. Radiat. Transf. 109 2171
[18] Liu D, Huang Q X, Ma Z Y, Wang F, Yan J H, Chi Y, Cen K F 2010 J. Heat Transfer 132 061202
[19] Modest M F 2003 Radiative Heat Transfer (2nd Ed.) (San Diege: Academic Press)
[20] Chang H, Charalampopoulos T T 1990 Proc. Roy. Soc. Lond. A 430 577
[21] Paige C C, Saunders M A 1982 AMC Trans. Math. 8 43
[22] Paige C C, Saunders M A 1982 AMC Trans. Math. 8 195
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