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NUMERICAL INVESTIGATION OF BUOYANCY EFFECT ON FORCED CONVECTIVE HEAT TRANSFER TO SUPERCRITICAL CARBON DIOXIDE FLOWING IN A HEATED TUBE

机译：浮选作用对加热管中超临界二氧化碳流强迫对流换热的数值研究

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Numerical investigation of buoyancy effect on forced convective heat transfer to supercritical carbon dioxide flowing in a vertical tube was carried out. When the mass flux is low and wall heat flux high, it shows that the buoyancy effect is obvious, which might redistribute the radial and axial velocity, even M shaped distribution in the radial direction. When the zero-velocity-gradient region corresponding to the M shaped velocity distribution appears in the edge of viscous layer, the production and diffusion of eddy will be weakened, resulting in heat transfer deterioration. According to the extended simulations based on experimental data, reducing the wall heat flux, adding the mass flux or raising the inlet temperature can relieve the deterioration of heat transfer caused by buoyancy effect.

机译：进行了浮力对强迫对流换热到垂直管中流动的超临界二氧化碳的数值研究。当质量通量较低而壁热通量较高时，表明浮力作用明显，可能会重新分布径向速度和轴向速度，甚至在径向呈M形分布。当与M形速度分布相对应的零速度梯度区域出现在粘性层的边缘时，涡流的产生和扩散将被削弱，从而导致传热恶化。根据基于实验数据的扩展模拟，减少壁热通量，增加质量通量或提高入口温度可以缓解浮力效应导致的传热恶化。

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《International conference on nuclear engineering》|2018年|V06AT08A040.1-V06AT08A040.6|共6页
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Liu Sheng-hui; Liu Guang-xu; Huang Yan-ping; Wang Jun-feng;
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入库时间 2022-08-26 13:51:48

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1. Forced and mixed convection heat transfer to supercritical CO_2 vertically flowing in a uniformly-heated circular tube [J] . Bae Y.-Y., Kim H.-Y., Kang D.-J. Experimental Thermal and Fluid Science: International Journal of Experimental Heat Transfer, Thermodynamics, and Fluid Mechanics . 2010,第8期

机译：强制和混合对流传热到在均匀加热的圆管中垂直流动的超临界CO_2
2. Improvement of buoyancy and acceleration parameters for forced and mixed convective heat transfer to supercritical fluids flowing in vertical tubes [J] . Shenghui Liu, Yanping Huang, Guangxu Liu, International Journal of Heat and Mass Transfer . 2017,第MARa期

机译：改进了对垂直管中流动的超临界流体进行强制和混合对流传热的浮力和加速度参数
3. Numerical investigation of buoyancy effect on heat transfer to carbon dioxide flow in a tube at supercritical pressures [J] . Sheng-hui Liu, Yan-ping Huang, Jun-feng Wang, International Journal of Heat and Mass Transfer . 2018,第feba期

机译：在超临界压力下浮力对管中二氧化碳传热的浮力影响的数值研究
4. NUMERICAL INVESTIGATION OF BUOYANCY EFFECT ON FORCED CONVECTIVE HEAT TRANSFER TO SUPERCRITICAL CARBON DIOXIDE FLOWING IN A HEATED TUBE [C] . Liu Sheng-hui, Liu Guang-xu, Huang Yan-ping, International Conference on Nuclear Engineering . 2018

机译：加热管流动对流动性二氧化碳的浮力效应的数值研究
5. Experimental and numerical analysis of convective heat transfer enhancement with nanofluids flowing over a heated flat plate. [D] . McCants, Dale Allen. 2009

机译：纳米流体流过加热平板的对流换热增强的实验和数值分析。
6. Numerical Study on the Heat Transfer of Carbon Dioxide in Horizontal Straight Tubes under Supercritical Pressure [O] . Mei Yang -1

机译：超临界压力下水平直管中二氧化碳传热的数值研究
7. Forced Convection Heat Transfer to Fluid Near Critical Point Flowing in a Circular Tube : Part 1, Experimental Investigation under Supercritical Pressure [O] . Ayao TSUGE, Hiroaki TANAKA, Masaru HIRATA, 1974

机译：强制对流热传递到流体近临界点流动，流动在圆管中流动：第1部分，超临界压力下的实验研究
8. Heat Transfer in Turbulent Supercritical Carbon Dioxide Flowing in a Heated Horizontal Tube. [R] . Olson, D. A., Allen, D. 1998

机译：湍流超临界二氧化碳在加热水平管内流动的传热。

NUMERICAL INVESTIGATION OF BUOYANCY EFFECT ON FORCED CONVECTIVE HEAT TRANSFER TO SUPERCRITICAL CARBON DIOXIDE FLOWING IN A HEATED TUBE

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