Heat transfer and hydraulic resistance of supercritical-pressure coolants. Part II: Experimental data on hydraulic resistance and averaged turbulent flow structure of supercritical pressure fluids during heating in round tubes under normal and deteriorated heat transfer conditions

V.A. Kurganov; Yu.A. Zeigarnik; I.V. Maslakova

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Heat transfer and hydraulic resistance of supercritical-pressure coolants. Part II: Experimental data on hydraulic resistance and averaged turbulent flow structure of supercritical pressure fluids during heating in round tubes under normal and deteriorated heat transfer conditions

机译：超临界冷却液的传热和水力阻力。第二部分：正常和恶化传热条件下圆管加热过程中超临界压力流体的水力阻力和平均湍流结构的实验数据

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Methodological basis and results from the experimental studies on hydraulic and friction resistances under turbulent supercritical-pressure (SCP) fluids flow in round tubes under adiabatic and heating conditions are presented. The experimental technique and results from sounding studies of the averaged turbulent SCP fluids flow under normal and deteriorated heat transfer conditions are given. The possible sources of large errors in hydraulic resistance calculations, when using one-dimensional (homogeneous) flow model, are pointed out. The interdependence between the heat transfer deterioration and significant changes in the averaged flow structure due to fluid thermal acceleration and Archimedes forces effects is analyzed.

机译：给出了在绝热和加热条件下，圆管中湍流超临界压力（SCP）流体流动下的水力和摩擦阻力的实验研究的方法学基础和结果。给出了在正常传热条件和恶化传热条件下平均湍流SCP流体流量的探测技术的实验技术和结果。指出了使用一维（均质）流动模型时水力阻力计算中大误差的可能来源。分析了由于流体热加速度和阿基米德力效应引起的传热恶化与平均流结构的显着变化之间的相互依赖性。

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来源
《International Journal of Heat and Mass Transfer》 |2013年第2期|152-167|共16页
作者
V.A. Kurganov; Yu.A. Zeigarnik; I.V. Maslakova;
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作者单位

Joint Institute for High Temperatures, Russia Academy of Sciences, Hi Izhorskaya 13, bid. 2, Moscow 125412, Russia;

Joint Institute for High Temperatures, Russia Academy of Sciences, Hi Izhorskaya 13, bid. 2, Moscow 125412, Russia;

Joint Institute for High Temperatures, Russia Academy of Sciences, Hi Izhorskaya 13, bid. 2, Moscow 125412, Russia;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Supercritical pressure; Turbulent flow; Heat transfer deterioration; Thermal acceleration; Archimedes (buoyancy) forces; Velocity; Shear stress and heat flow rate profiles; Eddy diffusivity coefficients;

机译：超临界压力;湍流;传热恶化;热加速度;阿基米德（浮力）部队;速度;剪应力和热流率曲线;涡流扩散系数;

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1. Heat transfer and hydraulic resistance of supercritical-pressure coolants. Part Ⅰ: Specifics of thermophysical properties of supercritical pressure fluids and turbulent heat transfer under heating conditions in round tubes (state of the art) [J] . V.A. Kurganov, Yu.A. Zeigarnik, I.V. Maslakova International Journal of Heat and Mass Transfer . 2012,第11a12期

机译：超临界冷却液的传热和水力阻力。第一部分：圆管加热条件下超临界压力流体的热物理性质和湍流热传递的详细信息（现有技术）
2. Heat transfer and hydraulic resistance of supercritical pressure coolants. Part Ⅳ: Problems of generalized heat transfer description, methods of predicting deteriorated heat transfer; empirical correlations; deteriorated heat transfer enhancement; dissolved gas effects [J] . V.A. Kurganov, Yu.A. Zeigarnik, I.V. Maslakova International Journal of Heat and Mass Transfer . 2014,第octa期

机译：超临界压力冷却剂的传热和水力阻力。第四部分：广义传热描述的问题，传热恶化的预测方法；经验相关传热增强变差；溶解气体效应
3. Simulaton of Enhanced Heat Transfer and Hydraulic Resistance under Turbulent Flow of a Supercritical-Pressure Jet-Propulsion Propellant in Channels [J] . G. A. Dreitser, I. E. Lobanov Thermal engineering . 2004,第1期

机译：通道内超临界压力喷气推进剂湍流增强传热和水力阻力的模拟
4. Semi-Analytical Prediction of Hydraulic Resistance and Heat Transfer for Pipe and Channel Flows of Water at Supercritical Pressure [C] . Eckart Laurien International congress on advances in nuclear power plants . 2012

机译：超临界压力下水的管道和通道流动的水力阻力和传热的半分析预测
5. THE EXPERIMENTAL DETERMINATION OF THE LOCAL AND AVERAGE HEAT TRANSFER CHARACTERISTICS AND AVERAGE FRICTION COEFFICIENTS FOR TURBULENT FLOW OF AIR AND ARGON WITH VARIABLE PROPERTIES IN SMOOTH TUBES WITH THE BOUNDARY CONDITIONS OF CONSTANT WALL TEMPERATURE HEATING AND INCREASING HEAT FLUX HEATING. [D] . PRIDEAUX, JEAN PAUL. 1966

机译：具有恒定壁温加热和增加热通量边界条件的光滑管中具有可变特性的空气和氩气湍流的局部和平均传热特性的试验摩擦系数和平均摩擦系数。
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. Discussion: “The Effect of Swirl, Inlet Conditions, Flow Direction, and Tube Diameter on the Heat Transfer to Fluids at Supercritical Pressure” (Shiralkar, B., and Griffith, P., 1970, ASME J. Heat Transfer, 92, pp. 465–471) [O] . W. B. Hall, J. D. Jackson 1970

机译：讨论：“旋流，入口条件，流动方向和管直径对超临界压力流体的热传递”（Shiralkar，B.和Griffith，P.，1970，Asme J.传热，92，PP 。465-471）

Heat transfer and hydraulic resistance of supercritical-pressure coolants. Part II: Experimental data on hydraulic resistance and averaged turbulent flow structure of supercritical pressure fluids during heating in round tubes under normal and deteriorated heat transfer conditions

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