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Numerical Heat Transfer, Part B: Fundamentals
An International Journal of Computation and Methodology
Volume 39, 2001 - Issue 2
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Original Articles

COMPARISON OF MODIFIED k-? TURBULENCE MODELS FOR BUOYANT PLUMES

J. Worthy, V. Sanderson, P. Rubini
Pages 151-165 | Published online: 29 Oct 2010

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David Robinson, Matthew Wood, Matthew Piggott & Gerard Gorman. (2016) CFD modelling of marine discharge mixing and dispersion. Journal of Applied Water Engineering and Research 4:2, pages 152-162.
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Rajesh Kumar & Anupam Dewan. (2014) Computational Models for Turbulent Thermal Plumes: Recent Advances and Challenges. Heat Transfer Engineering 35:4, pages 367-383.
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J.L. Consalvi, R. Demarco & A. Fuentes. (2012) Modelling thermal radiation in buoyant turbulent diffusion flames. Combustion Theory and Modelling 16:5, pages 817-841.
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Tien-Mo Shih, Chandrasekhar Thamire, Chao-Ho Sung & An-Lu Ren. (2010) Literature Survey of Numerical Heat Transfer (2000–2009): Part I. Numerical Heat Transfer, Part A: Applications 57:3-4, pages 159-296.
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Katsuhisa Noto & Keigo Nakai. (2008) Direct Numerical Simulation of Turbulent Thermal Plume in Stably Stratified Ambient: Formulation, Numerical Methodology, Reverse Transition, Relaminarization, and Turbulent Enhancement. Numerical Heat Transfer, Part B: Fundamentals 53:4, pages 313-357.
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Jude Worthy & Philip Rubini. (2005) A Study of LES Stress and Flux Models Applied to a Buoyant Jet. Numerical Heat Transfer, Part B: Fundamentals 48:3, pages 235-256.
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C. P. Brescianini & M. A. Delichatsios. (2003) NEW EVALUATION OF THE K-ε TURBULENCE MODEL FORFREE BUOYANT PLUMES. Numerical Heat Transfer, Part A: Applications 43:7, pages 731-751.
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Articles from other publishers (21)

Yuki SHIMANUKITakashi KURABUCHI, Takao OSAWA, Yoshihiro TORIUMISihwan LEEAmi KUDOYasuhisa ASAWA. (2022) NUMERICAL SIMULATION OF THERMAL PLUME ABOVE COMMERCIAL COOKING GAS STOVE USING CFD ANALYSIS (PART 1): TEMPERATURE AND VELOCITY DISTRIBUTIONS OF EXHAUST GAS, AND CAPTURE EFFICIENCY OF EXHAUST HOOD UNDER OPEN FLAME CONDITION数値流体力学解析による業務用ガスコンロから発生する熱上昇気流の再現(その1):裸火状態の温度分布、速度分布、および排気フードの捕集率. Journal of Environmental Engineering (Transactions of AIJ) 87:799, pages 569-578.
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M. Taha, S. Zhao, A. Lamorlette, J. L. Consalvi & P. Boivin. (2022) Lattice-Boltzmann modeling of buoyancy-driven turbulent flows. Physics of Fluids 34:5.
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Ji Hyun Sohn, Yun Je Cho & Han Young Yoon. (2022) Analysis on helium stratification erosion by vertical steam jet using the CUPID code. Nuclear Engineering and Design 388, pages 111643.
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Nitin Kumar, Partho Mukherjee, Vamsi Krishna Chalamalla, Anupam Dewan & Sridhar Balasubramanian. (2022) Assessment of RANS-based turbulence model for forced plume dynamics in a linearly stratified environment. Computers & Fluids 235, pages 105281.
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Jost Kemper, Ulf Riebesell & Kai Graf. (2022) Numerical Flow Modeling of Artificial Ocean Upwelling. Frontiers in Marine Science 8.
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Manohar Kampili, G. Vijaya Kumar, Stephan Kelm, K. Arul Prakash & Hans-Josef Allelein. (2021) CFD simulations of stratified layer erosion in MiniPanda facility using the tailored CFD solver containmentFOAM. International Journal of Heat and Mass Transfer 178, pages 121568.
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Nitin Kumar, Vamsi Krishna Chalamalla & Anupam Dewan. (2021) Reynolds-Averaged Navier-Stokes modeling of a turbulent forced plume in a stratified medium. Materials Today: Proceedings 47, pages 3068-3072.
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T G Hou, X B Yang, T M Wang, J H Liang, S W Li & Y B Fan. (2020) Locomotor transition: how squid jet from water to air. Bioinspiration & Biomimetics 15:3, pages 036014.
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Xiaohui YanAbdolmajid Mohammadian. (2017) Numerical Modeling of Vertical Buoyant Jets Subjected to Lateral Confinement. Journal of Hydraulic Engineering 143:7.
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Victor Petrov, Daniel Nunez, John Downing, Akshay Dave & Annalisa Manera. (2017) High resolution experiments of velocity and concentration fluctuations in a jet flow. Nuclear Engineering and Design 312, pages 361-374.
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Shi-Jie Cao, Dong-Hao Zhu & Yin-Bao Yang. (2016) Associated relationship between ventilation rates and indoor air quality. RSC Advances 6:112, pages 111427-111435.
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Rajesh Kumar & Anupam Dewan. (2015) Partially-averaged Navier–Stokes method for turbulent thermal plume. Heat and Mass Transfer 51:12, pages 1655-1667.
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S. Suard, A. Koched, H. Pretrel & L. Audouin. (2015) Numerical simulations of fire-induced doorway flows in a small scale enclosure. International Journal of Heat and Mass Transfer 81, pages 578-590.
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Rajesh Kumar & Anupam Dewan. (2014) URANS computations with buoyancy corrected turbulence models for turbulent thermal plume. International Journal of Heat and Mass Transfer 72, pages 680-689.
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Shi-Jie Cao & Johan Meyers. (2013) Asymptotic conditions for the use of linear ventilation models in the presence of buoyancy forces. Building Simulation 7:2, pages 131-136.
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Kun-Jung Hsieh, Fue-Sang Lien & Eugene Yee. (2013) Dense gas dispersion modeling of CO2 released from carbon capture and storage infrastructure into a complex environment. International Journal of Greenhouse Gas Control 17, pages 127-139.
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T M Wang, X B Yang, J H Liang, G C Yao & W D Zhao. (2013) CFD based investigation on the impact acceleration when a gannet impacts with water during plunge diving. Bioinspiration & Biomimetics 8:3, pages 036006.
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W. Chung & C. B. Devaud. (2008) Buoyancy-corrected k -ε models and large eddy simulation applied to a large axisymmetric helium plume . International Journal for Numerical Methods in Fluids 58:1, pages 57-89.
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Cheng-Long Chang. (2006) Mixed convection plume about a line heat source in micropolar fluid. International Communications in Heat and Mass Transfer 33:9, pages 1147-1155.
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Karim Van Maele & Bart Merci. (2006) Application of two buoyancy-modified – turbulence models to different types of buoyant plumes. Fire Safety Journal 41:2, pages 122-138.
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R.J Goldstein, E.R.G Eckert, W.E Ibele, S.V Patankar, T.W Simon, T.H Kuehn, P.J Strykowski, K.K Tamma, J.V.R Heberlein, J.H Davidson, J Bischof, F.A Kulacki, U Kortshagen & S Garrick. (2003) Heat transfer––a review of 2001 literature. International Journal of Heat and Mass Transfer 46:11, pages 1887-1992.
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