Experimental Investigations on the Influence of Assumptions in Soot Volume Fraction Measurement by TPD Method  

作　　者：卢晶 周怀春 

机构地区：[1]State Key Laboratory of Coal Combustion, Huazhong University of Science and Technology

出　　处：《Journal of Beijing Institute of Technology》2009年第4期402-407,共6页北京理工大学学报（英文版）

基　　金：Sponsored by the National Natural Science Foundation of China(50636010,50806023)

摘　　要：This paper investigated the influence of assumptions in soot volume fraction measurement by ther- moeouple particle densitometry （TPD） method in laminar nonpremixed ethylene/air diffusion flame. TPD method is based on an extension of the theoretical treatment of Eisner and Rosner, who assumed that the par- tide deposition to a cold surface immersed in a flame is dominated by thermophoresis. They developed a formulation for the soot particle mass flux to thermocouple bead to infer soot volume fraction by inserting the thermocouple to flame rapidly. However, in their formulations, some important parameters were neglected, such as the radiation from soot to thermocouple bead. We added the parameter into the formulation and analyzed its impact. The results show that the ignored parameter had significant influence for the calculation of thermocoupie bead emissivity and thermophoresis is not the dominant mechanism during the initial stage of soot particles deposition to bead, whose real causes should be studied further.This paper investigated the influence of assumptions in soot volume fraction measurement by ther- moeouple particle densitometry （TPD） method in laminar nonpremixed ethylene/air diffusion flame. TPD method is based on an extension of the theoretical treatment of Eisner and Rosner, who assumed that the par- tide deposition to a cold surface immersed in a flame is dominated by thermophoresis. They developed a formulation for the soot particle mass flux to thermocouple bead to infer soot volume fraction by inserting the thermocouple to flame rapidly. However, in their formulations, some important parameters were neglected, such as the radiation from soot to thermocouple bead. We added the parameter into the formulation and analyzed its impact. The results show that the ignored parameter had significant influence for the calculation of thermocoupie bead emissivity and thermophoresis is not the dominant mechanism during the initial stage of soot particles deposition to bead, whose real causes should be studied further.

关 键 词：TPD method neglected parameter soot deposition thermophoresis mechanism 

分 类 号：TK16[动力工程及工程热物理—热能工程]