首页> 外文会议>第35届纺织科学国际学术研讨会论文集 >Development of a Walk-able Sweating Fabric Manikin for Simulation of Dynamic Heat and Moisture Vapour Transfer from Clothed Man

【24h】

Development of a Walk-able Sweating Fabric Manikin for Simulation of Dynamic Heat and Moisture Vapour Transfer from Clothed Man

机译：一种可行走的排汗织物人体模型的开发，用于模拟穿衣人的动态热量和水分蒸汽传递

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

In this paper, a walk - able sweating fabric manikin - "Walter" has been developed for simulation of dynamic heat and moisture vapour transfer from clothed body. "Walter" has a similar weight and heat capacity to a human body and simulates human temperature regulation. Based on the data of 32 sets of clothing ensembles measured on the "walk-able" sweating manikin under 6 levels of wind velocities and 4 levels of walking speeds. the surface and total clothing thermal insulation and moisture vapour resistance were found to decrease with increase of wind velocity and walking speed, and the reduction ratio also decrease with increase of wind velocity and walking speed. The effect of "walking" motion can be regarded as an equivalent air velocity; the effect of walking speed is equivalent to 45% and 180% of the wind velocity on the surface and total thermal insulation and moisture vapour resistance, respectively.

机译：在本文中，已经开发出一种可行走的出汗织物人体模型“ Walter”，用于模拟从衣服身上传递的动态热量和水分蒸气。 “沃尔特”具有与人体相似的重量和热容量，并模拟人体的温度调节。基于在“ 6级风速”和“ 4级步行速度”下在“可行走”出汗人体模型上测量的32套服装的数据。随着风速和步行速度的增加，衣物的表面和总的隔热性和防潮性降低，并且减少率也随着风速和步行速度的增加而降低。 “步行”运动的效果可以被视为等效的空气速度;步行速度的影响分别相当于表面风速的45％和180％，以及总的隔热和防潮性。

著录项

来源
《第35届纺织科学国际学术研讨会论文集》|2006年|714-721|共8页
会议地点
作者
Xiaoming Qian; Jintu Fan;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类
关键词
Walk-able sweating manikin; Clothing thermal insulation; Clothing moisture vapor resistance; Human temperature regulation;

机译：可步行出汗的人体模型;服装保温;服装防潮蒸气性;人体温度调节;

相似文献

外文文献
中文文献
专利

1. Heat and water vapour transfer of protective clothing systems in a cold environment, measured with a newly developed sweating thermal manikin. [J] . Fukazawa T, Lee G, Matsuoka T, European journal of applied physiology . 2004,第6期

机译：防护服系统在寒冷环境中的热量和水蒸气传递，是通过新开发的出汗热人体模型进行测量的。
2. Development of a sweating thermal skin simulant for heat transfer evaluation of clothed human body under radiant heat hazard [J] . Applied thermal engineering: Design, processes, equipment, economics . 2020,第期

机译：辐射热危害下衣服体温传热评价的出汗热皮肤模拟
3. Measurement of clothing thermal insulation and moisture vapour resistance using a novel perspiring fabric thermal manikin [J] . J Fan, Y S Chen Measurement Science & Technology . 2002,第7期

机译：使用新型排汗织物保暖人体模型测量衣物的隔热和防潮性
4. A Report of Thermal and Moisture Transfer through the Assemble of Clothes on Perspiring Fabric Thermal Manikin [C] . Faming Wang, Feng Hu, Xiaohong Zhou, 第35届纺织科学国际学术研讨会论文集 . 2006

机译：汗蒸织物人体模型上衣服组合的热量和水分传递的报告
5. Investigation into the dynamic heat and moisture transfer through clothing systems using a perspiring fabric manikin. [D] . Wan, Xianfu. 2008

机译：使用出汗的织物人体模型研究通过服装系统进行的动态热量和水分传递。
6. A Simulation Model for Coupled Heat Transfer and Moisture Transport under the Action of Heat Source in Unsaturated Soils [O] . Hua Jin, Yi Guo, Hongkai Deng, -1

机译：热源作用下非饱和土壤传热与水分耦合耦合模拟模型
7. Development of a Device for Measuring Heat-Moisture Transfer Properties of Apparel Fabrics [O] . Sueo Kawabata 1984

机译：一种测量服装织物的测量耐热性能的装置的研制
8. Effects of Heat and Moisture Transfer Properties of Fabric on Heat Strain in Chemical Protective Ensembles. [R] . Xu, X., Rioux, T. P., Pomerantz, N., 2017

机译：织物热湿传递性能对化学防护集热应变的影响。

Development of a Walk-able Sweating Fabric Manikin for Simulation of Dynamic Heat and Moisture Vapour Transfer from Clothed Man

摘要

著录项

相似文献

相关主题

期刊订阅