Heat Transfer During Near-Critical-Pressure Condensation of Refrigerant Blends

Srinivas Garimella; Ulf C. Andresen; Biswajit Mitra; Yirong Jiang; Brian M. Fronk

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Heat Transfer During Near-Critical-Pressure Condensation of Refrigerant Blends

机译：制冷剂混合物近临界压力冷凝过程中的热传递

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Heat transfer during condensation of refrigerant blends R404A and R410A flowing through horizontal tubes with 0.76 ≤ D ≤ 9.4 mm at nominal P_r = 0.8-0.9 was investigated. Local heat transfer coefficients were measured for the mass flux range 200 ＜G ＜ 800 kg m~(-2) s~(-1) in small quality increments over the entire vapor-liquid region. Heat transfer coefficients increased with quality and mass flux, while the effect of reduced pressure was not very significant within this range of pressures. The heat transfer coefficients increased with a decrease in diameter. Correlations from the literature were not able to predict the condensation heat transfer coefficient for these fluids at these near-critical pressures over the wide range of tube diameters under consideration. A new flow-regime based model for heat transfer in the wavy, annular, and annular/wavy transition regimes, which predicts 91% of the data within ±25%, is proposed.

机译：研究了制冷剂混合物R404A和R410A在标称P_r = 0.8-0.9时流经水平管（0.76≤D≤9.4 mm）的冷凝过程中的热传递。在整个质量范围内，在200 ＜G ＜800 kg m〜（-2）s〜（-1）范围内以较小的质量增量测量了局部传热系数。传热系数随质量和质量通量的增加而增加，而在此压力范围内，减压效果不是很明显。传热系数随着直径的减小而增加。来自文献的相关性无法预测在考虑中的各种管径范围内这些近临界压力下这些流体的冷凝传热系数。提出了一种新的基于流态的波浪，环形和环形/波浪过渡状态下的热传递模型，该模型可预测91％的数据在±25％以内。

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来源
《Journal of Heat Transfer》 |2016年第5期|051503.1-051503.16|共16页
作者
Srinivas Garimella; Ulf C. Andresen; Biswajit Mitra; Yirong Jiang; Brian M. Fronk;
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作者单位

Sustainable Thermal Systems Laboratory, George W. Woodruff School of Mechanical Engineering, Georgia Institute of Technology, Atlanta, GA 30332;

Shell Oil Company, New Orleans, LA 70139;

Carrier Corporation, Chiller Development Program, Charlotte, NC 28269;

Thermo King, Minneapolis, MN 55420;

School of Mechanical, Industrial and Manufacturing Engineering, Oregon State University, Corvallis, OR 97331;

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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
two-phase; condensation; heat transfer; near-critical; microchannel; experiments;

机译：两相缩合;传播热量;接近临界微通道实验;
入库时间 2022-08-18 00:22:11

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1. Pressure drop during near-critical-pressure condensation of refrigerant blends [J] . Andresen Ulf C., Garimella Srinivas, Mitra Biswajit, International Journal of Refrigeration . 2015,第Null期

机译：制冷剂混合物接近临界压力冷凝时的压降
2. Measurement of Condensation Heat Transfer Coefficients at Near-Critical Pressures in Refrigerant Blends [J] . Yirong Jiang, Biswajit Mitra, Srinivas Garimella, Journal of Heat Transfer . 2007,第8期

机译：制冷剂混合物中接近临界压力的冷凝传热系数的测量
3. Heat transfer intensification during condensation of refrigerant with straight pipelines for a heat pump heating system [J] . Sergey Fedosov, Vadim Fedoseev, Svetlana Loginova E3S Web of Conferences . 2021,第a期

机译：用于热泵加热系统的直管式制冷剂冷凝热传递强化
4. CONVECTIVE CONDENSATION HEAT TRANSFER CORRELATIONS FOR PURE AND BLENDED REFRIGERANTS IN HORIZONTAL MICRO FIN TUBES [C] . RAJEEV KUKREJA, SANJEEV JAIN, R S AGARWAL . 2007

机译：水平微翅片管中纯制冷剂和混合制冷剂的对流冷凝传热相关性
5. Supercritical gas cooling and near-critical-pressure condensation of refrigerant blends in microchannels. [D] . Andresen, Ulf Christian. 2007

机译：在微通道中，超临界气体冷却和制冷剂混合物的近临界压力冷凝。
6. Steam condensation heat transfer on lubricant-infused surfaces [O] . Ryan Stoddard, Karthik Nithyanandam, Ranga Pitchumani 2021

机译：润滑剂注入表面上的蒸汽冷凝热传递
7. Experimental and Numerical Analysis of Condensation Heat Transfer and Pressure Drop of Refrigerant R22 in Minichannels of a Printed Circuit Heat Exchanger [O] . Shilin Li, Zhongchao Zhao, Yanrui Zhang, 2020

机译：印刷电路热交换器迷路中制冷剂R22冷凝热传递和压降的实验性和数值分析

Heat Transfer During Near-Critical-Pressure Condensation of Refrigerant Blends

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