Convective Heat Transfer at an Annular Jet Impingement on a Flat Blockage

Terekhov V. I.; Kalinina S. V.; Sharov K. A.

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Convective Heat Transfer at an Annular Jet Impingement on a Flat Blockage

机译：在平坦堵塞上的环形喷射冲击下的对流热传递

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The experimental results on heat transfer of an annular impinging jet have been. The Reynolds numbers Re = (1.2-3.6) x 10(4), the distance S from the nozzle to a blockage, S/d (0) = 2, 4, 6, and the circular slit height d (2)/d (0) = 0.51 and 0.71, where d (0) and d (2) are the internal and external nozzle diameters, have been varied. It is shown that at the same air mass flow rate, replacement of a round nozzle with an annular one results in heat-transfer intensification (up to 70% at the stagnation point). The maximum heat transfer gain occurs at a small nozzle-wall distance (S/d (0) = 2). The heat-transfer increase is accompanied by an increase in the thermal pulsation intensity. The degree of intensification of the heat exchange depends on the height of the circular slit and the nozzle-wall distance.

机译：存在环形撞击射流的传热的实验结果。雷诺数Re =（1.2-3.6）×10（4），从喷嘴到堵塞的距离S，S / D（0）= 2,4,6和圆形狭缝高度d（2）/ d （0）= 0.51和0.71，其中D（0）和D（2）是内部和外部喷嘴直径，已经变化。结果表明，在相同的空气质量流量下，用环形的圆形喷嘴替换圆形喷嘴导致热传递强化（在停滞点处高达70％）。最大传热增益发生在小喷嘴壁距离（S / D（0）= 2）。传热增加伴随着热脉动强度的增加。热交换的强化程度取决于圆形狭缝的高度和喷嘴壁距离。

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《High temperature: English translation of teplofizika vysokikh temperatur》 |2018年第2期|共6页
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Terekhov V. I.; Kalinina S. V.; Sharov K. A.;
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Russian Acad Sci Kutateladze Inst Thermal Phys Siberian Branch Novosibirsk 630090 Russia;

Russian Acad Sci Kutateladze Inst Thermal Phys Siberian Branch Novosibirsk 630090 Russia;

Russian Acad Sci Kutateladze Inst Thermal Phys Siberian Branch Novosibirsk 630090 Russia;

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1. Convective Heat Transfer at an Annular Jet Impingement on a Flat Blockage [J] . Terekhov V. I., Kalinina S. V., Sharov K. A. High temperature: English translation of teplofizika vysokikh temperatur . 2018,第2期

机译：在平坦堵塞上的环形喷射冲击下的对流热传递
2. Numerical study of turbulent annular impinging jet flow and heat transfer from a flat surface [J] . Afroz Farhana, Sharif Muhammad A. R. Applied thermal engineering: Design, processes, equipment, economics . 2018,第期

机译：湍流环形撞击射流流动与平坦表面热传递的数值研究
3. Convective heat transfer on a flat target surface impinged by pulsating jet with an additional transmission chamber [J] . Tang Chan, Zhang Jing-Zhou, Lyu Yuan-Wei, Heat and mass transfer . 2020,第1期

机译：对流传热在平坦的目标表面上，通过附加的传输腔通过脉动射流撞击
4. CONVECTIVE HEAT TRANSFER IN THE STAGNATION ZONE OF AN AXISYMMETRIC UPWARD JET IMPINGING ON A STATIONARY FLAT SURFACE [C] . Dennis Soltis, Brian Sangeorzan ASME international mechanical engineering congress and exposition . 2016

机译：轴对称向上射流在固定平面上撞击时的对流换热
5. Convective heat transfer of an axisymmetric, high Prandtl Number, free jet impinging on a stationary and reciprocating flat surface. [D] . Soltis, Dennis Allen. 2015

机译：轴对称的高Prandtl数的对流传热，自由射流撞击在固定的往复平面上。
6. Turbulent Heat Transfer From a Slot Jet Impinging on a Flat Plate [O] . Dahbia Benmouhoub, Amina Mataoui -1

机译：狭缝射流撞击平板的湍流传热
7. Convective heat transfer predictions in an axisymmetric jet impinging onto a flat plate using an improved k-omega model [O] . Kubacki Slawomir, Dick Erik 2010

机译：使用改进的k-omega模型在轴对称射流撞击平板上的对流传热预测
8. Impingement heat transfer from turbulent air jets to flat plates: A literature survey [R] . Livingood, J. N. B., Hrycak, P. 1973

机译：从湍流空气射流到平板的冲击传热：文献调查

Convective Heat Transfer at an Annular Jet Impingement on a Flat Blockage

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