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王绍宇

发布日期:2017-09-14

王绍宇2018级博士研究生微信图片_20231228150228.jpg

家乡:

本科专业:能源与动力工程

毕业院校:华北电力大学

爱好:

联系方式:oliverwsy@gmail.com

研究方向:高温润湿,微纳尺度相变换热

发表论文:

Wang S Y, Wang Z J, Wang D Q, Yang Y R, Wang X D*, Lee D J*. Electrically manipulated vapor condensation on the dimpled surface: Insights from molecular dynamics simulations. Langmuir, 2023, 39, 829-840. (SCI/EI)

Wang S Y, Wang Z J, Wang D Q, Yang Y R, Zheng S F, Gao S R, Wang X D*, Lee D J*. Nucleation of water vapor on nanodimpled surfaces: Effects of curvature radius and surface wettability. Applied Thermal Engineering, 2023, 219, 119437. (SCI/EI)

Wang S Y, Wang Z J, Wang S L, Yang Y R, Huang C L*, Wang X D*. Non-isothermal dissolutive wetting of Al-Ni and Cu-Ni alloy nanodroplets on a Cu(100) substrate. Journal of Thermal Science, 2022, 31(4): 1135-1144. (SCI/EI)

Wang S Y, Wang S L, Yang Y R, Wang X D*, Lee D J. High-temperature reactive wetting systems: Role of lattice constant. Chemical Engineering Science, 2019, 209: 115206. (SCI/EI)

Wang Z J, Wang S Y, Wang D Q, Yang Y R, Wang X D*, Lee D J*. Water vapor condensation on substrates with nanoscale hydrophilic spots: A molecular dynamics study. International Journal of Heat and Mass Transfer, 2023, 205, 123929. (SCI/EI)

Wang Z J, Wang S Y, Wang D Q, Yang Y R, Wang X D*, Lee D J*. Water vapor condensation on binary mixed substrates: A molecular dynamics study. International Journal of Heat and Mass Transfer, 2022, 184: 122281. (SCI/EI)

Wang Y H, Wang S Y, Lu G*, Wang X D*. Effects of wettability on explosive boiling of nanoscale liquid films: Whether the classical nucleation theory fails or not?.  International Journal of Heat and Mass Transfer, 2019, 132: 1277-1283.  ((SCI/EI)

Wang Y H, Wang S Y, Lu G*, Wang X D*. Explosive boiling of nano-liquid argon films on high temperature platinum walls: Effects of surface wettability and film thickness. International Journal of Thermal Sciences, 2018, 132: 610-617. (SCI/EI)