Analysis of the
Influence of Turbulence on the Heat Transfer Between Spherical Particles
and Planar Surfaces
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Analysis of the
Influence of Turbulence on the Heat Transfer Between Spherical Particles
and Planar Surfaces
Publication date: 26.08.2016
Technical Transactions, 2016, Mechanics Issue 1-M (1) 2016, pp. 43 - 51
https://doi.org/10.4467/2353737XCT.16.005.4969Authors
Analysis of the
Influence of Turbulence on the Heat Transfer Between Spherical Particles
and Planar Surfaces
The heat transfer between particles and walls plays an important role in several industrial processes. Since established models often deal with simplifications for the surrounding gaseous phase, this work aims to acquire a fundamental understanding of the occurring transport phenomena. In this work, a high-resolved finite-volume method is applied carrying out direct numerical simulation of fluid dynamics and heat transfer simultaneously. The influence of turbulence on the heat transfer is discussed in this paper.
Information: Technical Transactions, 2016, Mechanics Issue 1-M (1) 2016, pp. 43 - 51
Article type: Original article
Titles:
Analysis of the
Influence of Turbulence on the Heat Transfer Between Spherical Particles
and Planar Surfaces
Analysis of the
Influence of Turbulence on the Heat Transfer Between Spherical Particles
and Planar Surfaces
Process Dynamics and Operations Group, Faculty Of Process Sciences, Technical University of Berlin
Process Dynamics and Operations Group, Faculty Of Process Sciences, Technical University of Berlin
Hochschule Mannheim
Hochschule Mannheim
Published at: 26.08.2016
Article status: Open
Licence: None
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EnglishView count: 1909
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