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2020 | OriginalPaper | Chapter

Numerical Study of Thermal Comfort for Door Area in Civil Aircraft Cabin

Authors : Quan Peng, Chengyun Wu, Yudi Liu, Xuhan Zhang, Huayuan Liu

Published in: Man-Machine-Environment System Engineering

Publisher: Springer Singapore

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Abstract

In civil aircraft cabin, the requirement of comfort heating for passengers and crew in door areas is increasing. For the benefit of proper design for supplemental heating systems, a thermal model of door area is developed and the thermal comfort is investigated with CFD method. Human thermal comfort, gray thermal radiation, and Boussinesq hypothesis should be considered in physical modeling. The air distribution including air temperature and air velocity at different height above the floor is presented and analyzed according to ASHRAE 161 standard. The thermal model is validated through flight test, and results show good consistency between CFD solution and flight data.

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Liu W (2014) Experimental and numerical study of the air distribution in an airliner cabin. Dissertations & Theses—Gradworks

Farag AM (2018) [IEEE 2018 IEEE aerospace conference—big sky, MT, USA (2018.3.3–2018.3.10)] 2018 IEEE aerospace conference—thermal comfort investigation for commercial aircraft cabin by using CFD, pp 1–10

Liu W, Mazumdar S, Zhang Z et al (2012) State-of-the-art methods for studying air distributions in commercial airliner cabins. Build Environ 47:5–12

Liu W, Chen Q (2013) Current studies on air distributions in commercial airliner cabins. Theor Appl Mech Lett 3(6):062001CrossRef

American Society of Heating (2011) Refrigerating and Air-Conditioning Engineers, Inc. ASHRAE Handbook, Application. Atlanta, Georgia

Cheng Y, Niu J, Gao N (2012) Thermal comfort models: a review and numerical investigation. Build Environ 47:13–22

Title: Numerical Study of Thermal Comfort for Door Area in Civil Aircraft Cabin
Authors: Quan Peng
Chengyun Wu
Yudi Liu
Xuhan Zhang
Huayuan Liu
Publisher: Springer Singapore
Book: Man-Machine-Environment System Engineering
Print ISBN: 978-981-15-6977-7

Electronic ISBN: 978-981-15-6978-4

Copyright Year: 2020
DOI: https://doi.org/10.1007/978-981-15-6978-4_67