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Numerical Heat Transfer, Part A: Applications
An International Journal of Computation and Methodology
Volume 21, 1992 - Issue 2
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Original Articles

COMPARISON OF DIFFERENT TWO-EQUATION TURBULENCE MODELS FOR PREDICTION OF FILM COOLING FROM TWO ROWS OF HOLES

Amer A. Amer Department of Mechanical Engineering, Wayne State University, Detroit, Michigan, 48202
,
Bassam A. Jubran Department of Mechanical Engineering, University of Jordan, Amman, Jordan
&
Mohammed A. Hamdan Department of Mechanical Engineering, University of Jordan, Amman, Jordan
Pages 143-162 | Received 16 Jul 1990, Accepted 20 Mar 1991, Published online: 27 Apr 2007

Citations (33)

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Farouk Kebir & Abbès Azzi. (2018) Study of wave number effect in wavy plate for improving the film cooling effectiveness at spanwise direction. Numerical Heat Transfer, Part A: Applications 73:6, pages 408-427.
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Kuldeep Singh, B. Premachandran & M.R. Ravi. (2015) A Numerical Study on the 2D Film Cooling of a Flat Surface. Numerical Heat Transfer, Part A: Applications 67:6, pages 673-695.
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Mahmood Silieti, Eduardo Divo & AlainJ. Kassab. (2010) The Effect of Conjugate Heat Transfer on Film Cooling Effectiveness. Numerical Heat Transfer, Part B: Fundamentals 56:5, pages 335-350.
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Nadir Bekka, Rachid Bessaïh, Mohamed Sellam & Amer Chpoun. (2009) Numerical Study of Heat Transfer Around the Small Scale Airfoil Using Various Turbulence Models. Numerical Heat Transfer, Part A: Applications 56:12, pages 946-969.
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Sima Baheri Islami, S. P. Alavi Tabrizi & B. A. Jubran. (2007) Computational Investigation of Film Cooling from Trenched Holes Near the Leading Edge of a Turbine Blade. Numerical Heat Transfer, Part A: Applications 53:3, pages 308-322.
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Kalyan Kalita, Anupam Dewan & Anoop K. Dass. (2002) PREDICTION OF TURBULENT PLANE JET IN CROSSFLOW. Numerical Heat Transfer, Part A: Applications 41:1, pages 101-111.
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A. Azzi, M. Abidat, B.A. Jubran & G.S. Theodoridis. (2001) Film Cooling Predictions of Simple and Compound Angle Injection from One and Two Staggered Rows. Numerical Heat Transfer, Part A: Applications 40:3, pages 273-294.
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VijayK. Garg & RaymondE. Gaugler. (1996) LEADING EDGE FILM-COOLING EFFECTS ON TURBINE BLADE HEAT TRANSFER. Numerical Heat Transfer, Part A: Applications 30:2, pages 165-187.
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Tien-Mo Shih, M. M. Ohadi & Wei Liu. (1996) LITERATURE SURVEY ON NUMERICAL HEAT TRANSFER (1992–1993). Numerical Heat Transfer, Part A: Applications 29:5, pages 441-484.
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S. Sarkar & T. K. Bose. (1995) COMPARISON OF DIFFERENT TURBULENCE MODELS FOR PREDICTION OF SLOT-FILM COOLING: FLOW AND TEMPERATURE FIELD. Numerical Heat Transfer, Part B: Fundamentals 28:2, pages 217-238.
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Articles from other publishers (23)

Pasan Sanjeeva, Eshan Thilakarathna, Chanaka Mallikarachchi & Chathura Ranasinghe. (2021) Evaluation of RANS Turbulence Models for Prediction of Lateral Film Cooling Effectiveness at Low Blowing Ratios. Evaluation of RANS Turbulence Models for Prediction of Lateral Film Cooling Effectiveness at Low Blowing Ratios.
Alibek Issakhov & Albina Mashenkova. (2021) The assessment of two different pollutants dispersion from a coal-fired power plant for various thermal regimes. Journal of Environmental Health Science and Engineering 19:1, pages 959-983.
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Rui Hou, Fengbo Wen, Yuxi Luo, Xiaolei Tang & Songtao Wang. (2019) Large eddy simulation of film cooling flow from round and trenched holes. International Journal of Heat and Mass Transfer 144, pages 118631.
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A. Issakhov & A. Mashenkova. (2019) Numerical study for the assessment of pollutant dispersion from a thermal power plant under the different temperature regimes. International Journal of Environmental Science and Technology 16:10, pages 6089-6112.
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Rui Hou, Fengbo Wen, Tao Cui, Xiaolei Tang & Songtao Wang. (2019) Effect of Different Trench Lips on Downstream Film Cooling Effectiveness and Flow Fields. Journal of Thermal Science 28:2, pages 340-353.
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Zheng-lei Yu, Tao Xu, Jun-lou Li, Long Ma & Tian-shuang Xu. (2013) Comparison of a series of double chamber model with various hole angles for enhancing cooling effectiveness. International Communications in Heat and Mass Transfer 44, pages 38-44.
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M. Taeibi-Rahni, M. Ramezanizadeh, D.D. Ganji, A. Darvan, E. Ghasemi, Soheil Soleimani & H. Bararnia. (2011) Comparative study of large eddy simulation of film cooling using a dynamic global-coefficient subgrid scale eddy-viscosity model with RANS and Smagorinsky Modeling. International Communications in Heat and Mass Transfer 38:5, pages 659-667.
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Frank Muldoon & Sumanta Acharya. (2009) DNS study of pulsed film cooling for enhanced cooling effectiveness. International Journal of Heat and Mass Transfer 52:13-14, pages 3118-3127.
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E. Galvis, B. A. Jubran, F. XI. K. Behdinan & Z. Fawaz. (2007) Numerical modeling of pin–fin micro heat exchangers. Heat and Mass Transfer 44:6, pages 659-666.
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Kh. Javadi, M. Taeibi-Rahni & M. Darbandi. (2007) Jet-into-Crossflow Boundary-Layer Control: Innovation in Gas Turbine Blade Cooling. AIAA Journal 45:12, pages 2910-2925.
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Jeng-Min Huang, Chung-Ping Chiang, Jiing-Fu Chen, Yung-Lo Chow & Chi-Chuan Wang. (2007) Numerical investigation of the intercooler of a two-stage refrigerant compressor. Applied Thermal Engineering 27:14-15, pages 2536-2548.
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Elmer Galvis, Bassam Jubran, J Xi, Kamran Behdinan & Zouheir Fawaz,. (2006) Comparative Study of Turbulence Models in Predicting the Thermal and Hydrodynamic Characteristics of a Micro Heat Exchanger. Comparative Study of Turbulence Models in Predicting the Thermal and Hydrodynamic Characteristics of a Micro Heat Exchanger.
Shadi Mahjoob & Mohammad Taeibi-Rahni. (2006) Parameters Affecting Turbulent Film Cooling-Reynolds-Averaged Navier-Stokes Computational Simulation. Journal of Thermophysics and Heat Transfer 20:1, pages 92-100.
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Manabendra Pathak, Anupam Dewan & Anoop K. Dass. (2005) An assessment of streamline curvature effects on the mixing region of a turbulent plane jet in crossflow. Applied Mathematical Modelling 29:8, pages 711-725.
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Kh Javadi, M Taeibi-Rahni & M Darbandi. (2005) Jet into Cross Flow Boundary Layer Control - An Innovation in Gas Turbine Blade Cooling. Jet into Cross Flow Boundary Layer Control - An Innovation in Gas Turbine Blade Cooling.
G. D. Raithby & E. H. Chui. (2004) Accelerated Solution of the Radiation-Transfer Equation with Strong Scattering. Journal of Thermophysics and Heat Transfer 18:1, pages 160-160.
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Sagar Kapadia, Subrata Roy & James Heidmann. (2004) First Hybrid Turbulence Modeling for Turbine Blade Cooling. Journal of Thermophysics and Heat Transfer 18:1, pages 154-156.
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Sagar Kapadia, Subrata Roy & James Heidmann. (2003) Detached Eddy Simulation of Turbine Blade Cooling. Detached Eddy Simulation of Turbine Blade Cooling.
Mohammad Reza Keimasi & Mohammad Taeibi-Rahni. (2001) Numerical Simulation of Jets in a Crossflow Using Different Turbulence Models. AIAA Journal 39:12, pages 2268-2277.
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Siddharth Thakur, Jeffrey Wright & Wei Shyy. (1999) Convective film cooling over a representative turbine blade leading-edge. International Journal of Heat and Mass Transfer 42:12, pages 2269-2285.
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Vijay K. Garg & Reza S. Abhari. (1997) Comparison of predicted and experimental Nusselt number for a film-cooled rotating blade. International Journal of Heat and Fluid Flow 18:5, pages 452-460.
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V. K. Garg & R. E. Gaugler. (1997) Effect of Velocity and Temperature Distribution at the Hole Exit on Film Cooling of Turbine Blades. Journal of Turbomachinery 119:2, pages 343-351.
Crossref
Vijay K. Garg & Raymond E. Gaugler. (1997) Effect of coolant temperature and mass flow on film cooling of turbine blades. International Journal of Heat and Mass Transfer 40:2, pages 435-445.
Crossref

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