“火灾环境-防护服-人体”CFD传热模拟及皮肤烧伤分布预测  被引量：3

作　　者：田苗 苏云 李俊 TIAN Miao;SU Yun;LI Jun(Key Laboratory of Clothing Design and Technology of Ministry of Education,Protective Clothing Research Center,College of Fashion and Design,Donghua University,Shanghai 200051,China)

机构地区：[1]东华大学服装与艺术设计学院,功能防护服装研究中心,现代服装设计与技术教育部重点实验室,上海200051

出　　处：《清华大学学报（自然科学版）》2024年第6期1032-1038,共7页Journal of Tsinghua University(Science and Technology)

基　　金：中央高校基本科研业务费专项基金(2232023D-06/2232024G-08)。

摘　　要：科学配备消防装备、提升灾害事故现场风险评估能力是减少消防员伤亡事故的重要手段。为深入剖析火灾环境下“热源服装人体”系统的传热机制,提高服装对消防员的职业防护,该文基于燃烧假人系统和计算流体动力学原理,建立了“火灾环境-防护服-人体”三维传热模型,定量分析了火场热流密度、热暴露时间、服装厚度和服装表面发射率4个因素对人体表面皮肤烧伤比例和分布的作用机制。模拟计算结果表明:服装因素对烧伤比例的影响与处在火灾中心的着装人体表面传热方式和人体皮肤厚度分布相关;消防服设计方面需优化开口结构设计,以降低颈部、小臂和小腿的烧伤比例。[Objective]Firefighting gear serves as a crucial barrier for firefighters to prevent skin burns and reduce life-threatening risks during fire emergencies.Scientifically equipping firefighters with appropriate gear and enhancing the capability to assess on-site risk of disaster incidents are crucial for reducing casualties among firefighters.During a fire,the core of the heat transfer process revolves around the system of environment,clothing,and human body.A comprehensive analysis of the heat transfer mechanisms of the system is a scientific approach to improve the thermal protection level of the human body.This study aims to reveal the heat transfer mechanisms of the clothed human body to enhance occupational protection for firefighters.[Methods]The flame manikin system was employed in physical experiments to establish and validate numerical models.A geometric model of the combustion chamber with a clothed human body was established using a three-dimensional body scanner and reverse engineering technology.The turbulence,combustion,and radiation models were determined based on combustion chamber characteristics.The initial conditions,boundary conditions,and solution methods for the model were determined to calculate the systems heat transfer process.A skin heat transfer model with actual skin thickness was developed to predict skin burns.This model was combined with the flame manikin model to conduct virtual flame manikin tests under various thermal conditions.The fire environment and clothing are crucial elements in human thermal protection research.Herein,heat flux intensity and heat exposure duration were selected as environmental factors.Clothing thickness and surface emissivity were selected as clothing factors.All factors were set at nine levels,and a four-factor,nine-level orthogonal experimental design was used with 81 simulation calculations.[Results]The results of the simulation research indicate the followings.(1)The increase in heat flux intensity has the most substantial impact on the proportion of s

关 键 词：职业健康 个体防护 传热模型 皮肤烧伤 公共安全 

分 类 号：X968[环境科学与工程—安全科学]