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Numerical Heat Transfer, Part A: Applications
An International Journal of Computation and Methodology
Volume 72, 2017 - Issue 8
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Original Articles

Effect of crossflow regulation by varying jet diameters in streamwise direction on jet impingement heat transfer under maximum crossflow condition

Yongbin JiAdvanced Propulsion and Power Laboratory, Virginia Tech, Blacksburg, Virginia, USA;School of Mechanical Engineering, Institute of Turbomachinery, Shanghai Jiao Tong University, Shanghai, ChinaCorrespondence[email protected]
,
Prashant SinghAdvanced Propulsion and Power Laboratory, Virginia Tech, Blacksburg, Virginia, USA
,
Srinath V. EkkadAdvanced Propulsion and Power Laboratory, Virginia Tech, Blacksburg, Virginia, USA
&
Shusheng ZangAdvanced Propulsion and Power Laboratory, Virginia Tech, Blacksburg, Virginia, USA
Pages 579-599 | Received 27 Jun 2017, Accepted 10 Oct 2017, Published online: 08 Nov 2017

Citations (18)

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Read on this site (1)

Juan He, Qinghua Deng, Kun Xiao & Zhenping Feng. (2023) Impingement heat transfer enhancement in crossflow by a skewed twisted rib pair for simplified leading edge structure. Numerical Heat Transfer, Part A: Applications 84:7, pages 715-731.
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Articles from other publishers (17)

Melisa Albayrak, Bugra Sarper, Mehmet Tahir Erdinc & Orhan Aydin. (2023) The role of nozzle position and channel aspect ratio in thermal management of electronic modules. International Journal of Thermofluids 20, pages 100521.
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Prashant Singh. (2023) Ultrasonic vibration-assisted superior thermal transport. International Journal of Heat and Mass Transfer 213, pages 124366.
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Jian Zhang, Qun Zheng, Guoqiang Yue, Kang Huang & Yuting Jiang. (2023) Numerical research on the flow and heat transfer characteristic of impingement cooling with return holes. International Journal of Thermal Sciences 186, pages 108088.
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Prashant Singh, Youssef Aider & Inderjot Kaur. (2023) Swirl jet impingement heat transfer: Effect of jet-to-target spacing, jet Reynolds number and orientation with flat target. International Journal of Thermal Sciences 184, pages 107993.
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Saeed Khademi, Reza Farajipour & Majid Bazargan. (2023) Improving the Cooling Performance in a Low Reynolds Duct Flow of Multiple Impinging Jets with Non-uniform Spacing and Unequal Diameters of Nozzles. Arabian Journal for Science and Engineering.
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Melisa Albayrak, Bugra Sarper, Mehmet Saglam, Soner Birinci & Orhan Aydin. (2023) The role of jet-to-crossflow velocity ratio on convective heat transfer enhancement in the cooling of discrete heating modules. Thermal Science and Engineering Progress 37, pages 101549.
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M. Khalil, Sherif A. Mohamed, M. Attalla & Hussein M. Maghrabie. (2022) Cooling of Gas Turbine Blade Leading Edge Via an Array of Air Jets With Variable Diameters. Journal of Heat Transfer 144:12.
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Junfei Zhou, Jie Tian, Haiyin Lv & Han Dong. (2022) Numerical investigation on flow and heat transfer characteristics of single row jet impingement cooling with varying jet diameter. International Journal of Thermal Sciences 179, pages 107710.
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Prashant Singh. (2022) Effects of jet-to-target spacing on primary and secondary peak heat transfer for an obliquely impinging jet. International Journal of Heat and Mass Transfer 191, pages 122831.
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Yue Yang, JuiKui Mao, Pingting Chen, Feilong Wang & Zecan Tu. (2022) Numerical investigation of impingement heat transfer on the crossflow channel with vortex generators. Applied Thermal Engineering 201, pages 117780.
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Arshad Farooq, Shafqat Hussain, Xiang‐sheng Li & Maham A. Khan. (2021) Fluid flow characteristics and convective heat transfer improvement on a gas turbine blade. Heat Transfer 50:8, pages 8403-8425.
Crossref
Sandip Dutta & Prashant Singh. (2021) Opportunities in Jet-Impingement Cooling for Gas-Turbine Engines. Energies 14:20, pages 6587.
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Srinath V. Ekkad & Prashant Singh. (2021) A Modern Review on Jet Impingement Heat Transfer Methods. Journal of Heat Transfer 143:6.
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Vivek Subramaniam Sambamurthy, Srivatsan Madhavan, Prashant Singh & Srinath V. Ekkad. (2020) Array Jet Impingement on High Porosity Thin Metal Foams: Effect of Foam Height, Pore-Density, and Spent Air Crossflow Scheme on Flow Distribution and Heat Transfer. Journal of Heat Transfer 142:11.
Crossref
Srivatsan Madhavan, Kishore Ranganath Ramakrishnan, Prashant Singh & Srinath Ekkad. (2020) Jet Impingement Heat Transfer Enhancement by U-Shaped Crossflow Diverters. Journal of Thermal Science and Engineering Applications 12:4.
Crossref
Prashant Singh, Karthik Nithyanandam, Mingyang Zhang & Roop L. Mahajan. (2020) The Effect of Metal Foam Thickness on Jet Array Impingement Heat Transfer in High-Porosity Aluminum Foams. Journal of Heat Transfer 142:5.
Crossref
Srivatsan Madhavan, Prashant Singh & Srinath Ekkad. (2019) Jet Impingement Heat Transfer Enhancement by Packing High-Porosity Thin Metal Foams Between Jet Exit Plane and Target Surface. Journal of Thermal Science and Engineering Applications 11:6.
Crossref

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