|本期目录/Table of Contents|

[1]薛钊显,徐映红.基于稳态热湿传递模型的单层织物孔隙率最优决定反问题[J].浙江理工大学学报,2024,51-52(自科二):195-201.
 XUE Zhaoxian,XU Yinghong.An inverse problem of a steady state model of heat and moisture transfer for determining the optimal porosity of singlelayer fabrics[J].Journal of Zhejiang Sci-Tech University,2024,51-52(自科二):195-201.
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基于稳态热湿传递模型的单层织物孔隙率最优决定反问题()
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浙江理工大学学报[ISSN:1673-3851/CN:33-1338/TS]

卷:
第51-52卷
期数:
2024年自科第二期
页码:
195-201
栏目:
出版日期:
2024-03-10

文章信息/Info

Title:
An inverse problem of a steady state model of heat and moisture transfer for determining the optimal porosity of singlelayer fabrics
文章编号:
1673-3851 (2024) 03-0195-07
作者:
薛钊显徐映红
浙江理工大学,a.信息科学与工程学院;b.理学院,杭州 310018
Author(s):
XUE ZhaoxianXU Yinghong
a.School of Information Science and Engineering; b.School of Science, Zhejiang  Sci-Tech University,Hangzhou 310018, China
关键词:
织物热湿传递模型热湿舒适性蝙蝠算法孔隙率
分类号:
TS101
文献标志码:
A
摘要:
在稳态热湿传递模型的基础上,提出了一个单层织物的孔隙率最优决定反问题,通过优化织物的孔隙率参数以提高服装的热湿舒适性。使用蝙蝠算法求解单层织物的稳态热湿传递模型,得到温度和水汽浓度的分布;在此基础上,以高温天气下单层织物的散热性和透湿性最佳为目标,提出了单层织物孔隙率最优决定反问题;使用热阻和湿阻衡量织物的散热性和透湿性,将该反问题描述为一个热阻和湿阻最小优化问题,对热阻和湿阻设置不同的权重,将其转化为单目标优化问题,并使用蝙蝠算法求解。使用棉、羊毛、涤纶等3种常见的织物进行数值实验,结果表明:该反问题存在最优解,求解该反问题可得到使单层织物散热透湿性能达到最佳的孔隙率最优值;蝙蝠算法求解热湿传递模型正问题和反问题的效率高于常用的粒子群优化算法。该研究拓展了通过优化织物参数提高服装热湿舒适性的研究内容,可为高温天气下服装热湿舒适性优化设计提供一定的理论支持。

参考文献/References:

[1]孙继锋, 吴东利, 赵利端. 以人为本视域下服装舒适性的重要性及功能评价探究: 评《服装舒适性与功能》[J]. 毛纺科技, 2022, 50(3):135-136.
[2]Wong A S W, Li Y, Yeung P K W. Predicting clothing sensory comfort with artificial intelligence hybrid models[J]. Textile Research Journal, 2004, 74(1):13-19.
[3]代玲静, 刘皓. 服装的热湿舒适性研究进展[J]. 西部皮革, 2023, 45(3):111-113.
[4]徐定华, 葛美宝, 陈瑞林. 基于服装舒适性的纺织材料设计反问题[J]. 应用数学与计算数学学报, 2012, 26(3):332-341.
[5]Su Y, Li R, Song G W, et al. Modeling steam heat transfer in thermal protective clothing under hot steam exposure[J]. International Journal of Heat and Mass Transfer, 2018, 120:818-829.
[6]Shen H, An Y Y, Zhang H M, et al. 3D numerical investigation of the heat and flow transfer through cold protective clothing based on CFD[J]. International Journal of Heat and Mass Transfer, 2021, 175:121305.
[7]Huang Q J, Xing G Y, Yang F, et al. Modelling and experimental study on electrically heating garment to enhance personal thermal comfort[J]. IOP Conference Series: Earth and Environmental Science, 2021, 696(1): 012046.
[8]Su Y, Tian M A, Li J, et al. Development of heat and moisture transfer model for predicting skin burn of firefighter in fire environments[J]. The Journal of the Textile Institute, 2022, 113(8):1658-1665.
[9]徐定华. 纺织材料热湿传递数学模型及设计反问题[M]. 北京: 科学出版社, 2014:3-9.
[10]Ge M B, Yu Y E, Xu D H. Textile porosity determination based on a nonlinear heat and moisture transfer model[J]. Applicable Analysis, 2017, 96(10):1681-1697.

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备注/Memo

备注/Memo:
收稿日期: 2023-04-19
网络出版日期:2023-09-08
基金项目: 国家自然科学基金项目(11501513,11471287);浙江省自然科学基金项目(LY18A010030)
作者简介: 薛钊显(1997-),男,四川广元人,硕士研究生,主要从事反问题理论与应用方面的研究
通信作者: 徐映红,E-mail:xyh7913@163.com
更新日期/Last Update: 2024-03-08