Effects of swirl intensity on heat transfer and entropy generation in turbulent decaying swirl flow

Khalid M. Saqr; Mazlan A. Wahid

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Effects of swirl intensity on heat transfer and entropy generation in turbulent decaying swirl flow

机译：旋流强度对湍流衰减旋流中传热和熵产生的影响

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In the present work, numerical simulations of turbulent incompressible nonisothermal pipe flows were conducted to investigate the effect of inlet swirl intensity and streamwise swirl decay on heat transfer and local entropy generation in the flow. The RANS, energy and entropy equations along with Shih's realizable k-ε turbulence model were numerically solved using second order finite volume upwind discretization scheme. The CFD model results showed very good agreement with established LDV measurements. The streamwise trends of Nusselt and Stanton numbers were studied at different inlet swirl intensities. A new CFD-based empirical correlation for predicting the entropy augmentation number as a function of swirl number was proposed. It is shown that the swirl number radically affects the local entropy generation due to viscous dissipation in the inner core of the Rankine vortex structure.

机译：在目前的工作中，进行了湍流不可压缩的非等温管道流动的数值模拟，以研究入口旋流强度和沿流旋流衰减对流动中的传热和局部熵产生的影响。使用二阶有限体积迎风离散方案，数值求解了RANS，能量和熵方程以及Shih可实现的k-ε湍流模型。 CFD模型结果显示与已建立的LDV测量值非常吻合。研究了在不同入口涡流强度下的Nusselt和Stanton数的流向趋势。提出了一种新的基于CFD的经验相关性，用于预测熵增加数作为旋流数的函数。结果表明，由于朗肯涡旋结构内核中的粘性耗散，旋流数从根本上影响了局部熵的产生。

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《Applied thermal engineering: Design, processes, equipment, economics》 |2014年第1期|共8页
作者
Khalid M. Saqr; Mazlan A. Wahid;
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正文语种 eng
中图分类热力工程理论;
关键词
Entropy generation; Swirl intensity; Turbulence modeling; CFD;

机译：熵产生;旋流强度;湍流建模;CFD;

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1. Effects of swirl intensity on heat transfer and entropy generation in turbulent decaying swirl flow [J] . Khalid M. Saqr, Mazlan A. Wahid Applied thermal engineering: Design, processes, equipment, economics . 2014,第1期

机译：旋流强度对湍流衰减旋流中传热和熵产生的影响
2. Investigation on the effects of various swirl generators on heat transfer and fluid flow in decaying swirling flows [J] . M. Ahmadvand, A. F. Najafi, S. Shahidinejad Proceedings of the Institution of Mechanical Engineers, Part C. Journal of mechanical engineering science . 2010,第10期

机译：研究各种旋流发生器对衰减旋流中传热和流体流动的影响
3. Numerical investigations on swirl intensity decay rate for turbulent swirling flow in a fixed pipe [J] . A. F. Najafi, S. M. Mousavian, K. Amini International Journal of Mechanical Sciences . 2011,第10期

机译：固定管内湍流回旋流的旋流强度衰减率数值研究
4. NUMERICAL ANALYSIS OF THE SWIRL INTENSITY DECAY RATE FOR INTERNAL TURBULENT SWIRLING FLOW [C] . A. F. Najafi, S. M. Mousavian, M. H. Saidi 5th Joint ASME(American Society of Mechanical Engineers)/JSME(Japanese Society of Mechanical Engineers) Fluids Engineering Division Summer Conference 2007(FEDSM2007) . 2007

机译：内湍流旋流旋流强度衰减率的数值分析
5. The influence of axial flow on the fluid dynamics and heat transfer in decaying, swirling flow in a pipe. [D] . McClusky, Heather Lynn. 2003

机译：轴流对管道中的衰减旋流中的流体动力学和传热的影响。
6. Enhancement of heat transfer and entropy generation analysis of nanofluids turbulent convection flow in square section tubes [O] . Vincenzo Bianco, Sergio Nardini, Oronzio Manca 2011

机译：方形截面管中纳米流体湍流对流的传热增强和熵产生分析
7. Pressure-Strain-Rate Model Including Effect of Streamline Curvature and Prediction of Turbulent Swirling Pipe Flow. 2nd Report, Numerical Prediction of Turbulent Decaying Swirling Flow in a Long Pipe. [O] . Shuichiro Hirai, Toshimi Takagi, Masahiko Takada 1993

机译：压力 - 应变率模型包括流线曲率的效果和湍流旋流管流的预测。第2报告，长管中湍流衰减旋转流动的数值预测。
8. Numerical Simulation of Turbulent Premixed Combustion and Decay of Turbulent Swirling Flow. [R] . Cloutman, L. D. 1988

机译：湍流预混燃烧与湍流旋流衰减的数值模拟。

Effects of swirl intensity on heat transfer and entropy generation in turbulent decaying swirl flow

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