摘要
为研究和提升热风黏合烘箱内部流场和温度场的均匀性,采用有限元分析方法对烘箱内部流场进行了仿真分析与优化。使用SolidWorks建立了烘箱流体域三维模型,根据烘箱工作时条件设定仿真计算的边界条件,通过实验测量得到纤维网的流阻数值,设定流阻相同的多孔介质模型代替纤维网实际结构,利用Fluent软件对烘箱内部流体域模型进行仿真计算,通过实验验证了仿真建模及计算的正确性。仿真结果表明:现有结构的烘箱上风道内流场不匀,纤维网表面温度场均匀性较差,针对仿真结果反映出的问题对烘箱结构进行了优化;优化后的烘箱仿真结果显示烘箱内部流场均匀性提升,纤维网上表面温度的总体均匀度由86.43%提升到93.06%。对烘箱进行结构优化后不仅提升了烘箱内部整体流场和温度场的均匀性,同时有利于降低烘箱的能耗。
Objective The production efficiency of a hot-air bonding could be low and not efficient in energy consumption because of uneven temperature and flow field inside the oven.In order to improve the performance of the oven and reduce energy consumption,this research aims to analyze the flow field and temperature field inside the hot-air bonding oven and optimize its structure to enhance the uniformity of the temperature and flow field inside the oven.Method The internal flow field of the oven was simulated and optimized using the finite element analysis method.A three-dimensional model of the oven fluid domain was established using SolidWorks,and the boundary conditions for simulation calculation were set according to the working conditions of the oven.The flow resistance value of the fiber network was obtained through experimental measurement,and a porous medium model with the same flow resistance was set to replace the actual model of the fiber network,and the Fluent software was used to simulate and calculate the fluid domain model inside the oven.The correctness of the simulation modeling and calculation was verified through experiments.Results The simulation results of the original oven model showed that the internal flow field had a large flow rate in ducts 1 and 3,and a small flow rate in ducts 2 and 4.There were severe vortices in ducts 1 and 3,causing irregular airflow and significant overall flow field non-uniformity.The lowest temperature on the surface of the fiber network was 130℃,with the overall uniformity of 86.43%,and a total standard deviation of 6.97.The data indicates that the temperature distribution on the surface of the fiber network was relatively scattered,and the temperature uniformity was poor.It was found from the optimized oven simulation results that the flow rates in each duct were basically the same.After installing a deflector in the upper duct,the deflector guided and directed the airflow,resulting in a stable airflow in the upper duct and the disappearance of vortices.This signifi
作者
吕汉明
梁金辉
马崇启
端木德庆
LU Hanming;LIANG Jinhui;MA Chongqi;DUANMU Deqing(School of Textile Science and Engineering,Tiangong University,Tianjin 300387,China)
出处
《纺织学报》
EI
CAS
CSCD
北大核心
2024年第10期216-223,共8页
Journal of Textile Research
基金
国家自然科学基金项目(51003075,51403152)。
关键词
有限元分析
热风黏合烘箱
多孔介质模型
均匀性
内部流场
无胶棉
finite element analysis
hot air viscosity oven
porous media model
uniformity
internal flow field
non-glue cotton
