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Experimental Heat Transfer
A Journal of Thermal Energy Generation, Transport, Storage, and Conversion
Volume 28, 2015 - Issue 4
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Articles

Experimental Investigation of Heat Transfer for a Jet Impinging Obliquely on a Flat Surface

M. AttallaMechanical Power and Energy Department, Faculty of Engineering, South Valley University, Qena, EgyptCorrespondence[email protected]
&
M. SalemMechanical Department, Faculty of Industrial Education, Sohag University, Sohag, Egypt
Pages 378-391 | Received 06 May 2013, Accepted 24 Jan 2014, Published online: 10 Sep 2014

Citations (27)

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Read on this site (9)

Gorasiya A.V.Vedula R.P. (2022) Heat transfer characteristics of jet impingement onto the concave surface of a cone. Experimental Heat Transfer 0:0, pages 1-25.
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Milad Farzad, Hicham El Ferouali, Ozan Kahraman & Jamal Yagoobi. (2022) Enhancement of heat transfer and product quality using jet reattachment nozzles in drying of food products. Drying Technology 40:2, pages 352-370.
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Surendra D. Barewar & Sandesh S. Chougule. (2021) Heat transfer characteristics and boiling heat transfer performance of novel Ag/ZnO hybrid nanofluid using free surface jet impingement. Experimental Heat Transfer 34:6, pages 531-546.
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Saeed Rakhsha, Mehran Rajabi Zargarabadi & Seyfolah Saedodin. (2021) Experimental and numerical study of flow and heat transfer from a pulsed jet impinging on a pinned surface. Experimental Heat Transfer 34:4, pages 376-391.
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Jian Cai, Wei Ye, Shuyang Tu, Shaochen Tian & Xu Zhang. (2020) Experimental Investigation on Thermal Protection of High Temperature and High Velocity Jet Impinging a Cross-Shaped plate. Heat Transfer Engineering 41:9-10, pages 851-866.
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M. Attalla, Ahmed A. Abdel Samee & Naser N. Salem. (2020) Experimental investigation of heat transfer of impinging jet on a roughened plate by a micro cubic shape. Experimental Heat Transfer 33:3, pages 210-225.
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M. Attalla, H. Ahmed, M. S. Ahmed & A. A. El–Wafa. (2017) Experimental investigation of the effect of nozzle numbers on Ranque–Hilsch vortex tube performance. Experimental Heat Transfer 30:3, pages 253-265.
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Somayeh Davoodabadi Farahani, Farshad Kowsary & Mehdi Ashjaee. (2016) Experimental Investigation of Heat Transfer Coefficient from the Impingement of a Slot Jet Using Conjugate Gradient Method with Adjoint Equation. Experimental Heat Transfer 29:5, pages 657-672.
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M. K. Agrawal & S. K. Sahu. (2016) An Experimental Study on the Rewetting of a Hot Vertical Surface by Circular Water Jet Impingement. Experimental Heat Transfer 29:2, pages 151-172.
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Articles from other publishers (18)

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.
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Abhishek Mishra, Lyazid Djenidi & Amit Agrawal. (2023) Flow characterization in the downhill region of a pulsed oblique round jet. Physical Review Fluids 8:5.
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Parampreet Singh, Ratna Kishore Velamati & Subhash Chander. (2022) Effect of obliquity on impingement heating characteristics of co-axial swirling flame jet - An experimental and numerical investigation. International Communications in Heat and Mass Transfer 139, pages 106474.
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Chuansheng Liu, Chenglong Tang, Haibao Mu & Zuohua Huang. (2022) A data fusion approach with high spatiotemporal resolution for wall temperature measurement upon jet impingement. International Journal of Heat and Mass Transfer 183, pages 122084.
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Hüseyin KAYA. (2021) İkili Çarpan Jet ile Soğutulan Sıcak Plakanın Yüzey Şeklinin Isı Transferine Etkisinin Sayısal AnaliziNumerical Analysis of the Effect of Surface Shape of Hot Plate Cooled by Double Impinging Jet on Heat Transfer. Düzce Üniversitesi Bilim ve Teknoloji Dergisi 9:1, pages 152-163.
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Maheandera Prabu Paulraj, Santosh Kumar Sahu, Avadhesh Kumar Sharma, Anuj Kumar, Karthikeyan Sengadurai & I. A. Palani. 2021. Fluid Mechanics and Fluid Power. Fluid Mechanics and Fluid Power 571 579 .
Medhat M. Sorour, Wael M. El-Maghlany, Mohamed A. Alnakeeb & Amgad M. Abbass. (2019) Experimental study of free single jet impingement utilizing high concentration SiO nanoparticles water base nanofluid. Applied Thermal Engineering 160, pages 114019.
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Avadhesh Kumar Sharma & Santosh Kumar Sahu. (2019) An experimental study on heat transfer and rewetting behavior of hot horizontal downward facing hot surface by mist jet impingement. Applied Thermal Engineering 151, pages 459-474.
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Dogan E. Alnak, Yasin Varol, Mujdat Firat, Hakan F. Oztop & Coskun Ozalp. (2019) Experimental and numerical investigation of impinged water jet effects on heated cylinders for convective heat transfer. International Journal of Thermal Sciences 135, pages 493-508.
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Chitranjan Agrawal. (2018) Surface Quenching by Jet Impingement − A Review. steel research international 90:1.
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Avadhesh Kumar Sharma, Mayank Modak & Santosh Kumar Sahu. (2018) The heat transfer characteristics and rewetting behavior of hot horizontal downward facing surface by round water jet impingement. Applied Thermal Engineering 138, pages 603-617.
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Mayank Modak, Sandesh S. Chougule & Santosh K. Sahu. (2018) An Experimental Investigation on Heat Transfer Characteristics of Hot Surface by Using CuO–Water Nanofluids in Circular Jet Impingement Cooling. Journal of Heat Transfer 140:1.
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Abdallah D. Manasrah, Ismail W. Almanassra, Nedal N. Marei, Usamah A. Al-Mubaiyedh, Tahar Laoui & Muataz A. Atieh. (2018) Surface modification of carbon nanotubes with copper oxide nanoparticles for heat transfer enhancement of nanofluids. RSC Advances 8:4, pages 1791-1802.
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M. Attalla, Hussein M. Maghrabie & E. Specht. (2017) Effect of inclination angle of a pair of air jets on heat transfer into the flat surface. Experimental Thermal and Fluid Science 85, pages 85-94.
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M. Attalla, Hany Ahmed, M. Salem Ahmed & A. Abo El- Wafa. (2017) An experimental study of nozzle number on Ranque Hilsch counter-flow vortex tube. Experimental Thermal and Fluid Science 82, pages 381-389.
Crossref
Ying Zhou, Guiping Lin, Xueqin Bu, Lizhan Bai & Dongsheng Wen. (2017) Experimental study of curvature effects on jet impingement heat transfer on concave surfaces. Chinese Journal of Aeronautics 30:2, pages 586-594.
Crossref
Xueqin Bu, Long Peng, Guiping Lin, Lizhan Bai & Dongsheng Wen. (2016) Jet impingement heat transfer on a concave surface in a wing leading edge: Experimental study and correlation development. Experimental Thermal and Fluid Science 78, pages 199-207.
Crossref
Xueqin Bu, Long Peng, Guiping Lin, Lizhan Bai & Dongsheng Wen. (2015) Experimental study of jet impingement heat transfer on a variable-curvature concave surface in a wing leading edge. International Journal of Heat and Mass Transfer 90, pages 92-101.
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