Citations: Parallel Computation for Radiative Heat Transfer Using the DOM in Combustion Applications: Direction, Frequency, Subdomain Decompositions, and Hybrid Methods

Numerical Heat Transfer, Part B: Fundamentals

An International Journal of Computation and Methodology

Volume 62, 2012 - Issue 1

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Citations (6)

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E. M. Orbegoso, L. F. Figueira da Silva & R. Serfaty. (2016) Comparative study of thermal radiation properties models in turbulent non-premixed sooting combustion. Numerical Heat Transfer, Part A: Applications 69:2, pages 166-179.
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Rui-Rui Zhou, Ya-Song Sun & Ben-Wen Li. (2022) The collocation spectral method with domain decomposition for radiative heat transfer in two-dimensional enclosures. Computers & Mathematics with Applications 123, pages 204-215.
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Fatmir Asllanaj, Sylvain Contassot-Vivier, Olivier Botella & Francis H.R. França. (2021) Numerical solutions of radiative heat transfer in combustion systems using a parallel modified discrete ordinates method and several recent formulations of WSGG model. Journal of Quantitative Spectroscopy and Radiative Transfer 274, pages 107863.
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M.A. Badri, P. Jolivet, B. Rousseau, S. Le Corre, H. Digonnet & Y. Favennec. (2018) Vectorial finite elements for solving the radiative transfer equation. Journal of Quantitative Spectroscopy and Radiative Transfer 212, pages 59-74.
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Pedro J. Coelho. (2014) Advances in the discrete ordinates and finite volume methods for the solution of radiative heat transfer problems in participating media. Journal of Quantitative Spectroscopy and Radiative Transfer 145, pages 121-146.
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Guillaume Lecocq, Damien Poitou, Ignacio Hernández, Florent Duchaine, Eleonore Riber & Bénédicte Cuenot. (2014) A Methodology for Soot Prediction Including Thermal Radiation in Complex Industrial Burners. Flow, Turbulence and Combustion 92:4, pages 947-970.
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Parallel Computation for Radiative Heat Transfer Using the DOM in Combustion Applications: Direction, Frequency, Subdomain Decompositions, and Hybrid Methods

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Parallel Computation for Radiative Heat Transfer Using the DOM in Combustion Applications: Direction, Frequency, Subdomain Decompositions, and Hybrid Methods

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