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Drying Technology
An International Journal
Volume 22, 2004 - Issue 9
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Original Articles

Flow and Heat Transfer Characteristics of Confined Noncircular Turbulent Impinging Jets

Wennan Zhao Institute of High Performance Computing, The Capricorn, Science Park II, Singapore
,
Kurichi Kumar Institute of High Performance Computing, The Capricorn, Science Park II, Singapore
&
A. S. Mujumdar Department of Mechanical Engineering, National University of Singapore, Kent Ridge Crescent, SingaporeCorrespondence[email protected]
Pages 2027-2049 | Published online: 06 Feb 2007

Citations (28)

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Read on this site (9)

Munevver Elif Asar, Mengqiao Yang & Jamal Yagoobi. (2023) Impact of reattachment surface characteristics on the flow field generated by slot jet reattachment nozzle – A numerical study. Drying Technology 41:8, pages 1333-1350.
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Milad Farzad & Jamal Yagoobi. (2021) Drying of moist cookie doughs with innovative slot jet reattachment nozzle. Drying Technology 39:2, pages 268-278.
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Phani Krishna Kadiyala & Himadri Chattopadhyay. (2017) Numerical simulation of transport phenomena due to array of round jets impinging on hot moving surface. Drying Technology 35:14, pages 1742-1754.
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M. D. Limaye, R. P. Vedula & S. V. Prabhu. (2014) Influence of the Shape of the Orifice on the Local Heat Transfer Distribution of a Flat Plate Impinged by Under-Expanded Sonic Jets. Experimental Heat Transfer 27:5, pages 403-427.
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Tomás Norton, Brijesh Tiwari & Da-Wen Sun. (2013) Computational Fluid Dynamics in the Design and Analysis of Thermal Processes: A Review of Recent Advances. Critical Reviews in Food Science and Nutrition 53:3, pages 251-275.
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Ying Jiang, Peng Xu, ArunS. Mujumdar, Shuxia Qiu & Zhouting Jiang. (2012) A Numerical Study on the Convective Heat Transfer Characteristics of Pulsed Impingement Drying. Drying Technology 30:10, pages 1056-1061.
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S. Banooni, S. M. Hosseinalipour, A. S. Mujumdar, E. Taheran, M. Bahiraei & P. Taherkhani. (2008) Baking of Flat Bread in an Impingement Oven: An Experimental Study of Heat Transfer and Quality Aspects. Drying Technology 26:7, pages 902-909.
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S. Banooni, S. M. Hosseinalipour, A. S. Mujumdar, E. Taheran & M. Mashaiekhi. (2008) Impingement Heat Transfer Effects on Baking of Flat Bread. Drying Technology 26:7, pages 910-919.
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Himadri Chattopadhyay. (2006) Effect of Surface Motion on Transport Processes Due to Circular Impinging Jets—A Numerical Study. Drying Technology 24:11, pages 1347-1351.
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Articles from other publishers (19)

Hussein M. Maghrabie, M. Attalla & Mustafa Abdelfattah. (2023) Heat Transfer Intensification of a Confined Impinging Air Jet Via a Guiding Baffle. ASME Journal of Heat and Mass Transfer 145:7.
Crossref
Usman Allauddin, Muhammad U. Sohail, Muhammad Sohaib, Mohammad A. Siddiqui, Muhammad H.U. Khan, Kashif Khan & Patrick G. Verdin. (2023) Heat transfer and fluid flow investigations in jet impingement system of a single and array of square jets formed under fixed mass flow rate. Computational Thermal Sciences: An International Journal.
Crossref
Xiufeng Yang, Xiao Ye, Bin Zuo, Ke Zhong & Yanming Kang. (2020) Analysis of the factors influencing the airflow behavior in an impinging jet ventilation room. Building Simulation 14:3, pages 749-762.
Crossref
Sz-Jia Tzeng, Xiang-Xin Chen & Wei-Cheng Wang. (2020) Numerical studies of metal particle behaviors inside the selective laser melting (SLM) chamber through computational fluid dynamics (CFD). The International Journal of Advanced Manufacturing Technology 107:11-12, pages 4677-4686.
Crossref
Xuzhi Du, Zhigang Yang, Zheyan Jin, Chao Xia & Di Bao. (2018) A comparative study of passive control on flow structure evolution and convective heat transfer enhancement for impinging jet. International Journal of Heat and Mass Transfer 126, pages 256-280.
Crossref
M. Attalla, Hussein M. Maghrabie, Abdul Qayyum, Adnan G. Al-Hasnawi & E. Specht. (2017) Influence of the nozzle shape on heat transfer uniformity for in-line array of impinging air jets. Applied Thermal Engineering 120, pages 160-169.
Crossref
Satyanand Abraham & Rajendra P. Vedula. (2016) Effectiveness and heat transfer characteristics for a single heated rectangular jet with different aspect ratios impinging perpendicularly on a flat surface. International Journal of Heat and Mass Transfer 102, pages 1012-1023.
Crossref
S.A. Reodikar, Hukam Chand Meena, Ravish vinze & S.V. Prabhu. (2016) Influence of the orifice shape on the local heat transfer distribution and axis switching by compressible jets impinging on flat surface. International Journal of Thermal Sciences 104, pages 208-224.
Crossref
R. Gharraei, A. Vejdani, S. Baheri & A.A. Davani D.. (2016) Numerical investigation on the fluid flow and heat transfer of non-Newtonian multiple impinging jets. International Journal of Thermal Sciences 104, pages 257-265.
Crossref
Pramod Kuntikana & S.V. Prabhu. (2016) Isothermal air jet and premixed flame jet impingement: Heat transfer characterisation and comparison. International Journal of Thermal Sciences 100, pages 401-415.
Crossref
Ravish Vinze, S. Chandel, M.D. Limaye & S.V. Prabhu. (2016) Influence of jet temperature and nozzle shape on the heat transfer distribution between a smooth plate and impinging air jets. International Journal of Thermal Sciences 99, pages 136-151.
Crossref
Hukam Chand Meena, S.A. Reodikar, Ravish Vinze & S.V. Prabhu. (2016) Influence of the shape of the orifice on the local heat transfer distribution between smooth flat surface and impinging incompressible air jet. Experimental Thermal and Fluid Science 70, pages 292-306.
Crossref
Dushyant Singh, B. Premachandran & Sangeeta Kohli. (2015) Effect of nozzle shape on jet impingement heat transfer from a circular cylinder. International Journal of Thermal Sciences 96, pages 45-69.
Crossref
Nan Chen & Huidan Yu. (2014) Mechanism of axis switching in low aspect-ratio rectangular jets. Computers & Mathematics with Applications 67:2, pages 437-444.
Crossref
Jundika C. Kurnia, Agus P. Sasmito, Wei Tong & Arun S. Mujumdar. (2013) Energy-efficient thermal drying using impinging-jets with time-varying heat input – A computational study. Journal of Food Engineering 114:2, pages 269-277.
Crossref
Z. Y. Wang, T. N. Wong, F. Duan, K. C. Toh, K. F. Choo, S. P. Tan, C. V. Loh & S. C. Yeo. (2011) Submerged liquid jet impingement cooling. Submerged liquid jet impingement cooling.
R. Herrero Martin & J.M. Buchlin. (2011) Jet impingement heat transfer from lobed nozzles. International Journal of Thermal Sciences 50:7, pages 1199-1206.
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 2004 literature. International Journal of Heat and Mass Transfer 53:21-22, pages 4343-4396.
Crossref
Puneet Gulati, Vadiraj Katti & S.V. Prabhu. (2009) Influence of the shape of the nozzle on local heat transfer distribution between smooth flat surface and impinging air jet. International Journal of Thermal Sciences 48:3, pages 602-617.
Crossref

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