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论文类型：期刊论文

发表时间：2012-11-01

发表刊物：BUILDING AND ENVIRONMENT

收录刊物：SCIE、EI、Scopus

卷号：57

页面范围：97-109

ISSN号：0360-1323

关键字：Aircraft; Insulation; Air channel; Asymmetric heat transfer; Experiment; CFD

摘要：Modern commercial airplanes cruise at a high altitude where it is extremely cold. To withstand the cold atmosphere, the airplane's inner skin is covered by a layer of fiberglass insulation. However, this porous insulation material can entrap a large quantity of moisture after just a few months of an airplane's operation, resulting in weight increase, insulation degradation and various corrosions. This paper proposes to insulate an aircraft by an air stream barrier running through an annular channel along the cross section of the fuselage. Hot air is supplied to the channel entry at the lower lobe of the aircraft to heat the aircraft before it is finally delivered into the passenger cabin. As both channel surfaces are neither in uniform temperature nor uniform heat flux, the existent correlation formulas cannot be applied to fulfill the insulation design. This investigation has applied a computational fluid dynamics (CFD) program to model a two-dimensional aircraft section insulated by such an air channel. A partial aircraft cabin mockup is constructed and put to a psychrometric chamber that is conditioned to -19 degrees C for experimental test. The results reveal the air channel is effective to insulate an airplane. The highly asymmetric temperature profiles across the channel also lead to asymmetric velocity profiles. In the near-window region of the passenger cabin, temperature is much elevated due to the channel, and thus cold sidewall and draft that have been repetitiously experienced by passengers seated near windows can be much alleviated. (C) 2012 Elsevier Ltd. All rights reserved.