织物-空气层-皮肤三维结构建模及其传热模拟  被引量：1

作　　者：韩烨 田苗[1,2,3] 蒋青昀 苏云[1,2] 李俊[1,2] HAN Ye;TIAN Miao;JIANG Qingyun;SU Yun;LI Jun(College of Fashion and Design,Donghua University,Shanghai 200051,China;Key Laboratory of Clothing Design and Technology,Ministry of Education,Donghua University,Shanghai 200051,China;Key Laboratory of High Performance Fiters&Products,Ministry of Education,Donghua University,Shanghai 201620,China)

机构地区：[1]东华大学服装与艺术设计学院,上海200051 [2]东华大学现代服装设计与技术教育部重点实验室,上海200051 [3]东华大学高性能纤维及制品教育部重点实验室,上海201620

出　　处：《纺织学报》2024年第2期198-205,共8页Journal of Textile Research

基　　金：中央高校基本科研业务费专项基金(2232023D-06/2232023G-08);上海市级大学生创新创业训练计划项目(S202110255124)。

摘　　要：热防护服装是消防员面对火灾环境的重要屏障,为分析织物组织对其热防护能力的影响,构建了消防服外层阻燃织物的三维几何模型,并考虑实际着装状态建立“织物-空气层-皮肤”流固耦合传热模型。根据实验结果验证模型,并选取外界环境、织物组织结构及纱线导热系数进行参数研究,对比织物表面温度分布及真皮层热流密度、温度变化曲线。结果表明,该模型能较好地拟合实验结果,随着热暴露峰值温度的上升及纱线宽度的增大,纱线表面温度、真皮层热流密度、真皮层温度均上升。纱线的导热系数对真皮层温度影响较小。纱线宽度对真皮层温度的影响与热环境相关。有必要针对热暴露环境设计织物结构,在保障热防护性能的同时减小热防护服装质量,降低消防员热应激。Objective Excessive thermal protection of thermal protective clothing will lead to heat stress,which is detrimental to health and even poses safety risks to firefighters.Reducing the weight and increasing the permeability of firefighting clothing can reduce their heat stress.The purpose of this study was to investigate the effects of fabric panel structure on its thermal protective performance based on numerical simulation,so as to provide a theoretical basis for improving fabric structure design.Method Both experimental and numerical methods were adopted in this study.The experiments were performed by SET(stored energy tester)with the fabrics used as the outer shell of firefighting clothing,which provided initial and boundary conditions for numerical models.The three dimensional geometric model was developed based on the real fabric structure.On this basis,a fluid-solid conjugated heat transfer model of fabric,air gap and skin was built considering the actual wearing state.The model was validated by the experiment results and a mesh independence test was performed.The validated model was used to carry out parameter studies taking into consideration of the ambient temperature,yarn count and thermal conductivity of yarn as parameters.Results The simulation results were in correspondence with the testing results.The mesh independence test indicated that the computational results were insensitive to the mesh sizes used in this study.Throughout the entire heat exposure process,the temperature within the air gap beneath the clothing decreased rapidly.The presence of fabric and the air gap significantly contributed to the thermal protection of the skin.Under different ambient temperatures,the skin temperature remained consistent.As the heat exposure progressed,heat continually transferred to the dermis,leading to a continuous increase in dermal heat flux,which plateaued at around 45 s.With increasing peak heat exposure temperature,the surface temperature of the yarn,dermal heat flux,and dermal temperature all increased

关 键 词：热传递 数值模拟 织物组织 消防服 低热辐射 

分 类 号：X924.3[环境科学与工程—安全科学] TS941.73[轻工技术与工程—服装设计与工程]