机译:在不凝性气体存在下,蜂窝状微孔超疏水表面上增强的蒸汽凝结传热的可视化研究
Institute of Thermal Science and Power Systems School of Energy Engineering Zhejiang University Hangzhou 310027 China;
Institute of Thermal Science and Power Systems School of Energy Engineering Zhejiang University Hangzhou 310027 China State Key Laboratory of Clean Energy Utilization Zhejiang University Hangzhou 310027 China;
Department of Mechanical Science and Engineering University of Illinois Urbana IL 61801 United States;
Condensation heat transfer; Droplet jumping; Honeycomb-like micropore; Non-condensable gas; Steam; Superhydrophobic surface;
机译:使用蒸汽喷射法增强在不凝性气体存在下的凝结传热
机译:不可凝气体对蒸汽凝结传热影响的可视化研究
机译:在亚大气压下水平管在水平管中存在蒸汽凝结热传递的实验研究
机译:在不同的冷凝压力下增强蜂窝状微孔超疏水表面上的蒸汽凝结热传递
机译:垂直表面和倾斜表面上存在不可凝气体时湍流自然对流冷凝的实验研究。
机译:逐滴冷凝传热调查在激光烧蚀的超疏水/亲水性杂交铜表面上
机译:超疏水表面上的振动增强凝结热传递:实验研究