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Application of Combined Micro- and Macro-Scale Models to Investigate Heat and Mass Transfer through Textile Structures with Additional Ventilation

Author

Listed:
  • Aušra Gadeikytė

    (Department of Applied Informatics, Kaunas University of Technology, Studentu Str. 50-407, LT-51368 Kaunas, Lithuania)

  • Aušra Abraitienė

    (Institute of Textile, Center for Physical Sciences and Technology, Demokratu Str. 53, LT-48485 Kaunas, Lithuania)

  • Rimantas Barauskas

    (Department of Applied Informatics, Kaunas University of Technology, Studentu Str. 50-407, LT-51368 Kaunas, Lithuania)

Abstract

In this study, computational models of heat and mass exchange through textile structures with additional ventilation at the micro- and macro-scale were investigated. The finite element analysis of advanced textile materials provides a better understanding of their heat and mass transfer properties, which influence thermal comfort. The developed computational models can predict air permeability (AP), thermal resistance ( R ct ), and heat transfer (h) coefficients at the micro-scale. Moreover, the mesh size was taken into consideration and validated with experimental data presented in the literature. In addition, computational models were extended to micro- and macro-scale forced ventilation models. Macro-scale finite element models require input parameters such as an effective heat transfer coefficient that are usually obtained experimentally. In this research, the heat transfer coefficients (h microlayer = 25.603 W/(K·m 2 ), h total = 8.9646 W/(K·m 2 )) were obtained numerically from the micro-scale model and were applied to a macro-scale model. The proposed methodology and developed models facilitate the determination of average temperature and temperature distributions through different through-thickness positions along the axis Oz. The simulations were carried out using Comsol Multiphysics and Matlab software.

Suggested Citation

  • Aušra Gadeikytė & Aušra Abraitienė & Rimantas Barauskas, 2023. "Application of Combined Micro- and Macro-Scale Models to Investigate Heat and Mass Transfer through Textile Structures with Additional Ventilation," Mathematics, MDPI, vol. 11(11), pages 1-20, May.
    • Handle: RePEc:gam:jmathe:v:11:y:2023:i:11:p:2532-:d:1160956
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    References listed on IDEAS

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    1. Pengjun Xu & Zhanxiao Kang & Faming Wang & Udayraj, 2020. "A Numerical Analysis of the Cooling Performance of a Hybrid Personal Cooling System (HPCS): Effects of Ambient Temperature and Relative Humidity," IJERPH, MDPI, vol. 17(14), pages 1-19, July.
    2. Gongbo Long & Yingjie Liu & Wanrong Xu & Peng Zhou & Jiaqi Zhou & Guanshui Xu & Boqi Xiao, 2022. "Analysis of Crack Problems in Multilayered Elastic Medium by a Consecutive Stiffness Method," Mathematics, MDPI, vol. 10(23), pages 1-16, November.
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