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垂直管煤粉高压密相气力输送特性的模拟研究
引用本文:蒲文灏,熊源泉,赵长遂,梁财,陈晓平,鹿鹏,范春雷. 垂直管煤粉高压密相气力输送特性的模拟研究[J]. 中国电机工程学报, 2008, 28(17): 21-25
作者姓名:蒲文灏  熊源泉  赵长遂  梁财  陈晓平  鹿鹏  范春雷
作者单位:东南大学能源与环境工程学院,江苏省南京市,210096
基金项目:国家重点基础研究发展计划(973计划)
摘    要:基于颗粒动力学理论,采用k-e-kp-e p湍流模式,对垂直管内高压密相上升流的三维流动行为进行了数值模拟,其颗粒浓度高达30%,并对部分模拟结果进行了实验验证。模拟过程中考虑了气固两相之间的湍流相互作用,得到了两相速度分布、浓度分布和湍流强度分布,考察了表观气速、输送压力和煤粉粒径对流动行为的影响。模拟结果显示:表观气速的增加导致压降梯度先减小后增加,导致煤粉浓度减小;输送压力的减小导致压降梯度减小;煤粉粒径的增加导致压降梯度增加。通过实验得到了表观气速和输送压力对压降梯度的影响。数值模拟结果与实验结果吻合较好。

关 键 词:颗粒动力学  湍流  气力输送  密相
收稿时间:2007-07-04

Numerical Simulation of Hydrodynamic Properties of Dense Pneumatic Conveying of Pulverized Coal in Vertical Pipe at High Pressure
PU Wen-hao,XIONG Yuan-quan,ZHAO Chang-sui,LIANG Cai,CHEN Xiao-ping,LU Peng,FAN Chun-lei. Numerical Simulation of Hydrodynamic Properties of Dense Pneumatic Conveying of Pulverized Coal in Vertical Pipe at High Pressure[J]. Proceedings of the CSEE, 2008, 28(17): 21-25
Authors:PU Wen-hao  XIONG Yuan-quan  ZHAO Chang-sui  LIANG Cai  CHEN Xiao-ping  LU Peng  FAN Chun-lei
Affiliation:School of Energy and Environment, Southeast UniversitySchool of Energy and Environment, Southeast UniversitySchool of Energy and Environment, Southeast UniversitySchool of Energy and Environment, Southeast UniversitySchool of Energy and Environment, Southeast UniversitySchool of Energy and Environment, Southeast UniversitySchool of Energy and Environment, Southeast University
Abstract:A k-e-kp-e p two fluid model was introduced to study three dimensional flow behaviors of dense phase pneumatic conveying of pulverized coal in vertical pipe on the basis of the kinetic theory of granular flow, taking into account the turbulent interaction between gas phase and particle phase. The results of influence of superficial velocity, transport pressure and particle diameter were reported. The results indicate that as the superficial velocity increases pressure gradient decreases first then increases; as the transport pressure decreases pressure gradient declines and an increase in particle size leads to increment in pressure gradient. The simulation results on pressure gradient were validated by the experimental data.
Keywords:kinetic theory of granular flow  turbulent flow  pneumatic conveying  dense phase
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