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EXPERIMENTAL AND COMPUTATIONAL STUDY OF HEAT/MASS TRANSFER AND FLOW STRUCTURE FOR FOUR DIMPLE SHAPES IN A SQUARE INTERNAL PASSAGE

机译：正方形内部通道中四种形状的热/质传递和流动结构的实验和计算研究

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Mass/heat transfer measurements are made using the naphthalene sublimation method in a square internal passage where one wall has a single dimple. Four types of dimple shapes are studied: square, triangular, circular and teardrop. Sherwood numbers are obtained both inside and around the dimples. Measurements are made at a Reynolds number of 21,000. In addition, computations are performed for the same dimple geometries, and with the same flow conditions as in the experiments. Flow patterns for the four dimples are identified, and heat transfer distributions for each dimple are obtained. Computational results are compared with the experimental data and show satisfactory agreement. Both experimental and numerical results suggest that the teardrop dimple has the highest heat /mass transfer among the four dimple shapes studied.

机译：质量/传热测量是使用萘升华法在方形内部通道中进行的，其中一面壁上有一个凹窝。研究了四种类型的酒窝形状：正方形，三角形，圆形和泪珠形。舍伍德数在酒窝内部和酒窝周围均可获得。以雷诺数21,000进行测量。另外，对于与实验相同的凹坑几何形状和相同的流动条件进行计算。确定了四个凹坑的流动模式，并获得了每个凹坑的传热分布。计算结果与实验数据进行了比较，并显示出令人满意的一致性。实验和数值结果均表明，在所研究的四种酒窝形状中，泪珠状酒窝具有最高的热量/质量传递。

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来源
《ASME turbo expo》|2009年|P.939-953|共15页
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作者
Fuguo Zhou; Sumanta Acharya;
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中图分类气体透平（涡轮机）;
关键词
d: dimple characteristic length; h: maximum dimple depth; D: channel hydraulic diameter; D_(n-a): binary diffusion coefficient for naphthalene-air; h_m: local mass transfer convection coefficient; et al;

机译：d：酒窝特征长度; h：最大酒窝深度; D：通道液压直径; D_（n-a）：萘-空气的二元扩散系数; h_m：局部传质对流系数;等;

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专利

1. Experimental and Computational Study of Heat/Mass Transfer and Flow Structure for Four Dimple Shapes in a Square Internal Passage [J] . Sumanta Acharya, Fuguo Zhou Journal of turbomachinery . 2012,第6期

机译：方形内部通道中四种酒窝形状的传热/传热与流动结构的实验和计算研究
2. Numerical analysis of flow structure and heat transfer characteristics in square channels with different internal-protruded dimple geometrics [J] . Gongnan Xie, Jian Liu, Phillip M. Ligrani, International Journal of Heat and Mass Transfer . 2013,第deca期

机译：内凸凹坑几何形状不同的方形通道内流动结构和传热特性的数值分析
3. NUMERICAL PREDICTION OF FLOW STRUCTURE AND HEAT TRANSFER IN SQUARE CHANNELS WITH DIMPLES COMBINED WITH SECONDARY HALF-SIZE DIMPLES/PROTRUSIONS [J] . Gongnan Xie, Jian Liu, Weihong Zhang, Numerical Heat Transfer, Part A. Application: An International Journal of Computation and Methodology . 2014,第1a6aPta1期

机译：带有二次半尺寸试管/突出物的试管方形通道内流动结构和传热的数值预测
4. The effect of conical dimple spacing on flow structure and heat transfer characteristics of internal flow using CFD [C] . O Yemin, M Wae-Hayee, P Narato International Conference on Computational Fluid Dynamics in Research and Industry . 2017

机译：CFD锥形浊间间距对内部流动结构和传热特性的影响
5. Heat transfer and flow structure from dimples in an internal cooling passage. [D] . Mahmood, Gazi Iftekhar. 2001

机译：内部冷却通道中的酒窝传热和流动结构。
6. On Computations for Thermal Radiation in MHD Channel Flow with Heat and Mass Transfer [O] . T. Hayat, M. Awais, A. Alsaedi, -1

机译：具有传热传质的MHD通道流中的热辐射计算
7. COMPUTATIONS OF FLOW STRUCTURE AND HEAT TRANSFER IN A DIMPLED CHANNEL AT LOW TO MODERATE REYNOLDS NUMBER [O] . Wilfred Vinod Patrick, Dr. Saad Ragab, Wilfred V. Patrick 2005

机译：低至中等雷诺数下的一个尺寸通道内的流动结构和传热计算
8. Experimental and Computational Studies of Heat Transfer in Complex Internal Flows [R] . Sparrow, E. M., Patankar, S. V. 1981

机译：复杂内流传热的实验与计算研究

EXPERIMENTAL AND COMPUTATIONAL STUDY OF HEAT/MASS TRANSFER AND FLOW STRUCTURE FOR FOUR DIMPLE SHAPES IN A SQUARE INTERNAL PASSAGE

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