Numerical Simulation of Unsteady Conjugate Heat Transfer of Electrothermal Deicing Process

A novel 3-D unsteady model of in-flight electrothermal deicing process is presented in this paper to simulate the conjugate mass and heat transfer phenomena of water film runback, phase change, and solid heat conduction. Mathematical models of water film runback and phase change are established and...

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Published in	International Journal of Aerospace Engineering Vol. 2018; no. 2018; pp. 1 - 16
Main Authors	Bu, Xueqin, Shen, Xiaobin, Lin, Guiping, Mu, Zuodong, Zhou, Ying
Format	Journal Article
Language	English
Published	Cairo, Egypt Hindawi Publishing Corporation 01.01.2018 Hindawi Hindawi Limited Wiley
Subjects	Aerospace engineering Aircraft accidents & safety Analysis Composite materials Computer simulation Conduction heating Conductive heat transfer Deicing Finite volume method Heat transfer Ice formation Mathematical models Novels Numerical analysis Phase change Phase transitions Research methodology Simulation Studies Temperature distribution Thermal conductivity Three dimensional models Water Water film Beijing China China
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Abstract	A novel 3-D unsteady model of in-flight electrothermal deicing process is presented in this paper to simulate the conjugate mass and heat transfer phenomena of water film runback, phase change, and solid heat conduction. Mathematical models of water film runback and phase change are established and solved by means of a loosely coupled method. At the current time step, solid heat conduction, water film runback, and phase change are iteratively solved until the heat boundary condition reaches convergence, then the temperature distribution and ice shape at the moment are obtained, and the calculation of the next time step begins subsequently. A deicing process is numerically simulated using the present model following an icing tunnel experiment, and the results match well with those in the literatures, which validate the present model. Then, an in-flight deicing process is numerically studied to analyze the effect of heating sequence.
AbstractList	A novel 3-D unsteady model of in-flight electrothermal deicing process is presented in this paper to simulate the conjugate mass and heat transfer phenomena of water film runback, phase change, and solid heat conduction. Mathematical models of water film runback and phase change are established and solved by means of a loosely coupled method. At the current time step, solid heat conduction, water film runback, and phase change are iteratively solved until the heat boundary condition reaches convergence, then the temperature distribution and ice shape at the moment are obtained, and the calculation of the next time step begins subsequently. A deicing process is numerically simulated using the present model following an icing tunnel experiment, and the results match well with those in the literatures, which validate the present model. Then, an in-flight deicing process is numerically studied to analyze the effect of heating sequence. A novel 3-D unsteady model of in-flight electrothermal deicing process is presented in this paper to simulate the conjugate mass and heat transfer phenomena of water film runback, phase change, and solid heat conduction. Mathematical models of water film runback and phase change are established and solved by means of a loosely coupled method. At the current time step, solid heat conduction, water film runback, and phase change are iteratively solved until the heat boundary condition reaches convergence, then the temperature distribution and ice shape at the moment are obtained, and the calculation of the next time step begins subsequently. A deicing process is numerically simulated using the present model following an icing tunnel experiment, and the results match well with those in the literatures, which validate the present model. Then, an inflight deicing process is numerically studied to analyze the effect of heating sequence.
Audience	Academic
Author	Shen, Xiaobin Mu, Zuodong Zhou, Ying Bu, Xueqin Lin, Guiping
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Copyright	Copyright © 2018 Zuodong Mu et al. COPYRIGHT 2018 Hindawi Limited Copyright © 2018 Zuodong Mu et al.; This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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SubjectTerms	Aerospace engineering Aircraft accidents & safety Analysis Composite materials Computer simulation Conduction heating Conductive heat transfer Deicing Finite volume method Heat transfer Ice formation Mathematical models Novels Numerical analysis Phase change Phase transitions Research methodology Simulation Studies Temperature distribution Thermal conductivity Three dimensional models Water Water film
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Title	Numerical Simulation of Unsteady Conjugate Heat Transfer of Electrothermal Deicing Process
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