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轴对称含烟黑火焰非均匀温度与烟黑浓度分布同时重建模拟研究 被引量:4

SIMULATION ON SIMULTANEOUS RECONSTRUCTION OF NON-UNIFORM TEMPERATURE AND SOOT VOLUME FRACTION IN AXISYMMETRIC SOOTING FLAMES
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摘要 对于非均匀吸收、发射、无散射的轴对称含烟黑火焰对象,常规双色法不再适用。本文基于烟黑辐射特性,提出并模拟研究了同时重建火焰温度与烟黑容积份额的新的辐射测量方法。从重建结果看,重建误差主要集中在火焰中心区域,这是观测路径上测量误差累积的结果。温度重建主要受火焰断面参数分布类型影响,而烟黑容积份额重建主要受测量误差的影响,这由它们与单色辐射强度的内在关系所决定。 For visualizing non-uniform absorbing, emitting, non-scattering, axisymmetric sooting flames, because conventional two-color emission methods are no longer suitable, a new emission method for the simultaneous estimation of temperature and soot volume fraction distributions in these flames is studied in this paper. The results indicate that the estimated vaues of temperature and soot volume fraction in flame center are less accurate than those in outer ring of flame which is caused by the noninvasive detectting technique adopted which provides accumulation intensity data in measured lines. The temperature estimation is sensitive to flame structures which correspond to different temperature and soot concentration distributions, but not sensitive to measurement error. However, the estimated soot volume fraction values are sensithe to measurement error. It can be explained by their inherent relations with monochromic intensities.
作者 艾育华 周怀春
机构地区 华中科技大学煤燃烧国家重点实验室
出处 《工程热物理学报》 EI CAS CSCD 北大核心 2004年第3期469-471,共3页 Journal of Engineering Thermophysics
基金 国家教育部高等学校优秀青年教师教学和科研奖励计划(1999年度)
关键词 含烟黑火焰 温度场 烟黑浓度场 同时重建 sooting flame temperature profile soot volume fraction simultaneous reconstruction
分类号 TK124 [动力工程及工程热物理—工程热物理]
  • 相关文献

参考文献7

  • 1Bengtsson PE. Simultaneous Two-Dimensional Visualization of Soot and OH in Flames Using Laser-Induced Fluorescence. Applied Spectroscopy, 1996, 50(9): 1182-1186
  • 2Iuliis SD, Barbini M, Benecchi S, et al. Determination of the Soot Volume Fraction in an Ethylene Diffusion Flame by Multiwavelength Analysis of Soot Radiation. Combustion and Flame, 1998, 115(1/2): 253-261
  • 3Correia DP, Ferrao P, Caldeira-Pires A, et al. Flame Three-Dimensional Tomography Sensor for in-Furnace Diagnostics. Proceedings of the Combustion Institute,2000, 28:431-438
  • 4Liu Lin-Hua, Man Guang-Long. Reconstruction of TimeAveraged Temperature of Non-Axisymmetric Turbulent Un-Confined Sooting Flame by Inverse Radiation Analysis. JQSRT, 2003, 78(2): 139-149
  • 5Zhou Huai-Chun, Han Shu-Dong. Simultaneous Reconstruction of Temperature Distribution, Absorptivity of Wall Surface and Absorption Coefficient of Medium in a 2-D Furnace System, International Journal of Heat and Mass Transfer, 2003, 46(14): 2645-2653
  • 6Shahad HAK, Mohammed YKA. Investigation of SootFormation and Temperature Field in Laminar Diffusion Flames of LPG-Air Mixture. Energy Conversion & Management, 2000, 41(17): 1897-1916
  • 7贾涛,程强,韩曙东,於正前,周刚,周怀春.一种火焰辐射图像探头的标定方法[J].热力发电,2002,31(5):23-25. 被引量:20

二级参考文献6

共引文献19

同被引文献24

  • 1[1]Modest M F.Radiative Heat Transfer[M].New York:McGraw Hill,1993.
  • 2[3]McCormick N J.Inverse radiative transfer problems:a review[J].Nuclear Science and Engineering,1992,112(5):185-198.
  • 3[4]Daun K J,Howell J R.Inverse design methods for radiative transfer systems[J].Journal of Quantitative Spectroscopy and Radiative Transfer,2005,93 (1):43-60.
  • 4[7]Zhou H C,Han S D,Sheng F,et al.Visualization of three-dimensional temperature distributions in a large-scale furnace via regularized reconstruction from radiative energy images:numerical studies[J].Journal of Quantitative Spectroscopy and Radiative Transfer,2002,72(3):361-383.
  • 5[8]Zhou H C,Sheng F,Han S D,et al.Reconstruction of temperature distributions in a 2-D absorbing-emitting system from radiant energy images[J].JSME International Journal,Series B,2000,43(1):104-109.
  • 6[9]艾育华.基于辐射成像成像的扩散火焰温度和烟黑浓度分布研究[D].武汉:华中科技大学能源与动力工程学院,2005.
  • 7Bengtsson P E. Simultaneous two-dimensional visualization of soot and OH in flames using laser-induced fluorescence [J].Applied Spectroscopy, 1996, 50(9) :1182-1186.
  • 8Iuliis S D, Barbini M, Benecchi S, et al. Determination of the soot volume fraction in an ethylene diffusion flame by multiwavelength analysis of soot radiation [J]. Combustion and Flame, 1998, 115(1/2) :253-261.
  • 9Correia D P, Ferrao P, Caldeira-Pires A, et al. Flame three -dimensional tomography sensor for in-furnace diagnostics [J]. Proceedings of the Combustion Institute, 2000, 28:431-438.
  • 10Lin Linhua, Man Guanglong. Reconstruction of time-averaged temperature of non-axisymmetric turbulent unconfined sooting flame by inverse radiation analysis [J]. Journal of Quantitative Spectroscopy and Radiative Transfer, 2003, 78(2) :139-149.

引证文献4

二级引证文献9

工程热物理学报
2004年 第3期

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