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Numerical Heat Transfer, Part A: Applications
An International Journal of Computation and Methodology
Volume 48, 2005 - Issue 4
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Original Articles

Modeling of Turbulent Heat Transfer from an Array of Submerged Jets Impinging on a Solid Surface

Samir A. Salamah General Electric Company, Power Generation Technology, Schenectady, New York, USACorrespondence[email protected]
&
Deborah A. Kaminski Department of Mechanical, Aeronautical & Nuclear Engineering, Rensselaer Polytechnic Institute, Troy, New York, USA
Pages 315-337 | Received 09 Apr 2004, Accepted 30 Dec 2004, Published online: 02 Sep 2006

Citations (33)

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Erhan Pulat, Mustafa Kemal Isman, Akın Burak Etemoglu & Muhiddin Can. (2011) Effect of Turbulence Models and Near-Wall Modeling Approaches on Numerical Results in Impingement Heat Transfer. Numerical Heat Transfer, Part B: Fundamentals 60:6, pages 486-519.
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Tien-Mo Shih, Martinus Arie & Derrick Ko. (2011) Literature Survey of Numerical Heat Transfer (2000–2009): Part II. Numerical Heat Transfer, Part A: Applications 60:11-12, pages 883-1096.
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Jr-Ming Miao, Chen-Yuan Wu & Ping-Hei Chen. (2009) Numerical Investigation of Confined Multiple-Jet Impingement Cooling Over A Flat Plate at Different Crossflow Orientaions. Numerical Heat Transfer, Part A: Applications 55:11, pages 1019-1050.
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MuhammadM. Rahman, JorgeC. Lallave & CesarF. Hernandez. (2008) Convective Heat Transfer from a Thick Hemispherical Plate during Free Liquid Jet Impingement. Numerical Heat Transfer, Part A: Applications 54:6, pages 581-602.
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Neil Zuckerman & Noam Lior. (2008) The Relationship Between the Distributions of Slot-Jet-Impingement Convective Heat Transfer and the Temperature in the Cooled Solid Cylinder. Numerical Heat Transfer, Part A: Applications 53:12, pages 1271-1293.
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M. K. Isman, E. Pulat, A. B. Etemoglu & M. Can. (2008) Numerical Investigation of Turbulent Impinging Jet Cooling of a Constant Heat Flux Surface. Numerical Heat Transfer, Part A: Applications 53:10, pages 1109-1132.
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E. Vishnuvardhanarao & Manab Kumar Das. (2007) Computation of Mean Flow and Thermal Characteristics of Incompressible Turbulent Offset Jet Flows. Numerical Heat Transfer, Part A: Applications 53:8, pages 843-869.
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E. Vishnuvardhanarao & Manab Kumar Das. (2007) Study of Conjugate Heat Transfer from a Flat Plate by Turbulent Offset Jet Flow. Numerical Heat Transfer, Part A: Applications 53:5, pages 524-542.
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Jamel Kechiche, Hatem Mhiri, Georges Le Palec & Philippe Bournot. (2007) Numerical Study of Pulsed Turbulent Plane Wall Jet by Low-Reynolds-Number k–ε Model. Numerical Heat Transfer, Part A: Applications 52:10, pages 935-957.
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MuhammadM. Rahman & JorgeC. Lallave. (2007) A Comprehensive Study of Conjugate Heat Transfer During Free Liquid Jet Impingement on a Rotating Disk. Numerical Heat Transfer, Part A: Applications 51:11, pages 1041-1064.
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Articles from other publishers (23)

Raj Kumar, Rahul Nadda, Sushil Kumar, Shaik Saboor, C. Ahamed Saleel, Mohamed Abbas, Asif Afzal & Emanoil Linul. (2023) Convective heat transfer enhancement using impingement jets in channels and tubes: A comprehensive review. Alexandria Engineering Journal 70, pages 349-376.
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Héctor Pastrana, C. Treviño, F. Pérez-Flores & L. Martínez-Suástegui. (2022) TR-PIV measurements of turbulent confined impinging twin-jets in crossflow. Experimental Thermal and Fluid Science 136, pages 110667.
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Raj Kumar, Rahul Nadda, Sushil Kumar, Khusmeet Kumar, Asif Afzal, R.K. Abdul Razak & Mohsen Sharifpur. (2021) Heat transfer and friction factor correlations for an impinging air jets solar thermal collector with arc ribs on an absorber plate. Sustainable Energy Technologies and Assessments 47, pages 101523.
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Guiyong Zhang, Huakun Huang, Tiezhi Sun, Ning Li, Bo Zhou & Zhe Sun. (2019) Analysis of the performance of a new developed shear stress transport model in a turbulent impinging jet flow. Physics of Fluids 31:11.
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Rahul Nadda, Anil Kumar & Rajesh Maithani. (2018) Efficiency improvement of solar photovoltaic/solar air collectors by using impingement jets: A review. Renewable and Sustainable Energy Reviews 93, pages 331-353.
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Rahul Nadda, Raj Kumar, Anil Kumar & Rajesh Maithani. (2018) Optimization of single arc protrusion ribs parameters in solar air heater with impinging air jets based upon PSI approach. Thermal Science and Engineering Progress 7, pages 146-154.
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Fatih Selimefendigil & Hakan F. Öztop. (2018) Cooling of a Partially Elastic Isothermal Surface by Nanofluids Jet Impingement. Journal of Heat Transfer 140:4.
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Rahul Nadda, Anil Kumar & Rajesh Maithani. (2017) Developing heat transfer and friction loss in an impingement jets solar air heater with multiple arc protrusion obstacles. Solar Energy 158, pages 117-131.
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Mustafa Kemal Isman, Philip J. Morris & Muhiddin Can. (2015) Investigation of laminar to turbulent transition phenomena effects on impingement heat transfer. Heat and Mass Transfer 52:10, pages 2027-2036.
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A. Madhusudana Achari & Manab Kumar Das. (2015) Application of various RANS based models towards predicting turbulent slot jet impingement. International Journal of Thermal Sciences 98, pages 332-351.
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Yue-Tzu Yang, Yi-Hsien Wang & Jen-Chi Hsu. (2015) Numerical thermal analysis and optimization of a water jet impingement cooling with VOF two-phase approach. International Communications in Heat and Mass Transfer 68, pages 162-171.
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A. Abdel-FattahF. Sh. Abou-TalebGamal H. Moustafa. (2014) Behavior of Air Jet Impinging on Curved Surfaces. Journal of Aerospace Engineering 27:5.
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Jung-Yang San & Jenq-Jye Chen. (2014) Effects of jet-to-jet spacing and jet height on heat transfer characteristics of an impinging jet array. International Journal of Heat and Mass Transfer 71, pages 8-17.
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Omar A. Melhem, Bekir S. Yilbas & S.Z. Shuja. (2014) Jet impingement onto kerf: Effect of kerf wedge angle on heat transfer rates and skin friction. Optics & Laser Technology 56, pages 76-87.
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S. Caliskan & S. Baskaya. (2012) Velocity field and turbulence effects on heat transfer characteristics from surfaces with V-shaped ribs. International Journal of Heat and Mass Transfer 55:21-22, pages 6260-6277.
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S. Caliskan & S. Baskaya. (2012) Experimental investigation of impinging jet array heat transfer from a surface with V-shaped and convergent-divergent ribs. International Journal of Thermal Sciences 59, pages 234-246.
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Yue-Tzu Yang, Tzu-Chieh Wei & Yi-Hsien Wang. (2011) Numerical study of turbulent slot jet impingement cooling on a semi-circular concave surface. International Journal of Heat and Mass Transfer 54:1-3, pages 482-489.
Crossref
R.J. Goldstein, 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, V. Srinivasan, K. Ghosh & R. Mittal. (2010) Heat transfer—A review of 2005 literature. International Journal of Heat and Mass Transfer 53:21-22, pages 4397-4447.
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E. Vishnuvardhanarao & Manab Kumar Das. (2009) Study of the heat transfer characteristics in turbulent combined wall and offset jet flows. International Journal of Thermal Sciences 48:10, pages 1949-1959.
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Jung-Yang San, Yi-Ming Tsou & Zheng-Chieh Chen. (2007) Impingement heat transfer of staggered arrays of air jets confined in a channel. International Journal of Heat and Mass Transfer 50:19-20, pages 3718-3727.
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Yue-Tzu Yang & Shiang-Yi Tsai. (2007) Numerical study of transient conjugate heat transfer of a turbulent impinging jet. International Journal of Heat and Mass Transfer 50:5-6, pages 799-807.
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Jingxuan He, Huakun Huang & Guiyong Zhang. (2022) The Sstcdgr Model for the Analysis of Turbulent Round Jet Impingement Heat Transfer. SSRN Electronic Journal.
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Guiyong Zhang, Huakun Huang, Tiezhi Sun & Zhifan Zhang. (2021) Flow Structures and Heat Transfer on Small-Scale Concentric Ribs Rough Surface for Confined Turbulent Jet Impingement. SSRN Electronic Journal.
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