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CFD-DEM方法研究下降管结构对颗粒流动的影响

Effect of down-tube structure on particle flow by CFD-DEM method
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摘要 为了明确不同下降管结构内陶瓷球和生物质颗粒的流动规律,对比研究了方形和圆形下降管对颗粒轴向速度、颗粒碰撞率和生物质停留时间的影响,同时考察了管径对颗粒轴向速度和生物质停留时间的影响。搭建了CFD-DEM耦合框架,并利用粒子图像测速技术对模拟进行了速度验证。试验结果表明,模拟结果与试验结果吻合良好;混合颗粒在圆管中的时均轴向速度高于方管,圆管中陶瓷球的最大轴向速度比方管高10%左右;不同管径大小下降管中的颗粒轴向速度差异主要体现在下降管的转弯处,管径60、70和80 mm下降管转弯处的陶瓷球速度依次损失了37%、40%、45%左右,生物质的速度依次损失了49%、52%、54%左右;方管中生物质与壁面的接触碰撞频率更高,圆管中生物质与陶瓷球的接触碰撞频率更高,两种管中分别约为23%和39%的生物质颗粒与陶瓷球接触;陶瓷球的加入后方管和圆管中的生物质停留时间分布离散程度分别增加了10%和17%。研究结果为下降管热解装置中的颗粒流动状态分析及结构设计和优化提供了依据。 Biomass energy is one of the most important eco-friendly renewable resources to reduce environmental pollution.The effective pyrolysis in a down-tube structure reactor can directly catalyze the production of bio-oil from biomass,in order to recycle the heat carriers.Among them,the flow patterns of particles are crucial to optimize the efficiency of the down-tube operation and the quality of the bio-oil products.This study aims to clarify the flow patterns of ceramic beads and biomass particles within different down-tube structures.A comparative study was conducted on the impact of square and round down-tubes on particle axial velocity,particle collision rates,and biomass residence time in a cold state.Additionally,a systematic investigation was implemented to examine the effect of tube diameter on particle axial velocity and biomass residence time.A CFD-DEM coupled computational framework was established,where the fluid part used the FLUENT software for CPU multi-core parallel computation,and the solid particles were simulated using EDEM software.The simulations were velocity-validated using particle image velocimetry(PIV).The experimental results showed that better performance was achieved in the consistent test and simulation velocity for ceramic beads.In terms of electrostatic effects,the experimental velocity of biomass particles was consistently lower than the simulated one.However,the difference in velocity between biomass in simulations and experiments was kept within a narrow range after electrostatic removal operations on the down-tube walls,fully meeting experimental requirements.The structural differences in the down-tubes depended on the flow of particles.The mixed particles exhibited higher time-averaged axial velocities in round tubes than those in square ones.Particularly,the maximum axial velocity of ceramic beads in round tubes was about 10%higher than in square ones.The difference was observed in the particle axial velocity at the bends of the down-tubes under different tube diameters.The velocity of ceramic beads decreased by approximately 37%,40%,and 45%at 60,70,and 80 mm diameters,respectively;The biomass velocity decreased by about 49%,52%,and 54%,respectively.The ceramic beads were introduced to change the comparative flow velocities of biomass particles in square and round tubes.The biomass velocity in round tubes was greater than that in square tubes.The ceramic beads reduced the flow velocity of biomass.The maximum axial velocity of biomass decreased by 41%and 33%,respectively,in both types of tubes.In square tubes,the biomass had a higher frequency of contact collisions with the walls,where about 23%of biomass particles were contacted with the ceramic beads,primarily flowing along the walls.In round tubes,there was a higher frequency of contact collisions between biomass and ceramic beads,where about 39%of biomass particles were contacted with the ceramic beads,resulting in a more uniform distribution of biomass and movement in the central part of the tube.Biomass particles shared a larger average residence time and more concentrated distribution in square tubes,compared with the round tubes.The ceramic beads were introduced to increase the dispersion of biomass residence time distribution,which increased by 10%and 17%in the square and round tubes,respectively.The findings can provide a strong reference for the particle flow states in the down-tube pyrolysis devices,in order to better design and optimize the down-tube structures.
作者 刘浩 马瑞 孙雪峰 高豪磊 张德俐 王芳 易维明 LIU Hao;MA Rui;SUN Xuefeng;GAO Haolei;ZHANG Deli;WANG Fang;YI Weiming(College of Agricultural Engineering and Food Science,Shandong University of Technology,Zibo 255022,China)
出处 《农业工程学报》 EI CAS CSCD 北大核心 2024年第13期205-213,共9页 Transactions of the Chinese Society of Agricultural Engineering
基金 国家自然科学基金(52130610,52106258,52206265) 山东省高等学校“青创科技支持计划”(2021KJ097) 山东省科技型中小企业创新能力提升工程项目(2023TSGC0994)。
关键词 生物质 下降管 计算机仿真 CFD-DEM 气固两相流 biomass down-tube computer simulation CFD-DEM gas-solid two-phase flow
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