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Numerical Heat Transfer, Part B: Fundamentals
An International Journal of Computation and Methodology
Volume 64, 2013 - Issue 5
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Original Articles

Evaluation of Turbulent Models for Natural Convection of Compressible Air in a Tall Cavity

Yijin Mao Department of Mechanical and Aerospace Engineering, University of Missouri, Columbia, Missouri, USA
&
Yuwen Zhang Department of Mechanical and Aerospace Engineering, University of Missouri, Columbia, Missouri, USACorrespondence[email protected]
Pages 351-364 | Received 22 Feb 2013, Accepted 23 Apr 2013, Published online: 17 Sep 2013

Citations (13)

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John R. Stark & Theodore L. Bergman. (2017) Prediction of convection from a finned cylinder in cross flow using direct simulation, turbulence modeling, and correlation-based methods. Numerical Heat Transfer, Part A: Applications 71:6, pages 591-608.
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Seok-Ki Choi, Ji-Woong Han, Seong-O Kim & Tae-Ho Lee. (2017) Computation of turbulent natural convection with the elliptic-blending differential and algebraic flux models. Numerical Heat Transfer, Part B: Fundamentals 71:1, pages 37-49.
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Svetlana A. Tkachenko, Ghar E. Lau, Victoria Timchenko, Guan H. Yeoh & John Reizes. (2016) Effect of heat loss on turbulent buoyancy-driven flow in a rectangular cavity using the large-eddy simulation. Numerical Heat Transfer, Part A: Applications 70:7, pages 689-706.
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Ali Javadi, Mahmoud Pasandideh-Fard & Majid Malek-Jafarian. (2015) Modification of k- Turbulent Model Using Kinetic Energy–Preserving Method. Numerical Heat Transfer, Part B: Fundamentals 68:6, pages 554-577.
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Articles from other publishers (9)

Aihong Zou, Fangqiu Yu, Ke Li & Wei Dai. (2022) The study of 4He twin-tube convective heat switches. International Journal of Thermal Sciences 181, pages 107747.
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Muhammad Aqeel Ashraf, Zhenling Liu, Emad Hasani Malekshah, Lioua Kolsi & Ahmed Kadhim Hussein. (2022) Coupling of BGK lattice Boltzmann method and experimental rheological/thermal behavior of Al 2 O 3 –oil nanolubricant for modeling of a finned thermal storage . International Journal of Numerical Methods for Heat & Fluid Flow 32:8, pages 2864-2884.
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Aparna Vijayan & Krunal M. Gangawane. (2020) Mixed convection in a tall lid-driven cavity with a triangular heat source for non-Newtonian power-law fluids. Journal of Thermal Analysis and Calorimetry 146:2, pages 937-954.
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Kittipos Loksupapaiboon & Chakrit Suvanjumrat. (2021) Assessment of turbulence models for low turbulent natural convection heat transfer in rectangular enclosed cavity using OpenFOAM. IOP Conference Series: Materials Science and Engineering 1137:1, pages 012044.
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Maxim N. Nikitin. (2020) Numerical analysis of refrigerated display designs in terms of cooling efficiency. International Journal of Thermal Sciences 148, pages 106157.
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Liqun Zhou, Jiaying Liu, Qunwu Huang & Yiping Wang. (2019) Analysis of Combined Natural Convection and Radiation Heat Transfer in a Partitioned Rectangular Enclosure with Semitransparent Walls. Transactions of Tianjin University 25:5, pages 472-487.
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Igor V. Miroshnichenko & Mikhail A. Sheremet. (2018) Radiation effect on conjugate turbulent natural convection in a cavity with a discrete heater. Applied Mathematics and Computation 321, pages 358-371.
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I.V. Miroshnichenko & M.A. Sheremet. (2018) Turbulent natural convection heat transfer in rectangular enclosures using experimental and numerical approaches: A review. Renewable and Sustainable Energy Reviews 82, pages 40-59.
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Chithra Devaraj, Eswaramurthi Muthuswamy & Sundararaj Kandasamy. (2015) Numerical Investigation of Laminar Natural Convection in Inclined Square Enclosure with the Influence of Discrete Heat Source. Journal of Applied Mathematics 2015, pages 1-9.
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