毕业研究生
王一博
发布日期:2017-09-14
王一博:2017级博士研究生
家乡:内蒙古
本科专业:
硕士专业:
毕业院校:东北电力大学
爱好:
联系方式:wangyiboedu@163.com
研究方向:宏观、微观尺度液滴撞击壁面及液膜流动与换热特性
发表论文:
●Wang Y B, Wang Y F, Gao S R, Yang Y R, Wang X D*, Chen M*. Universal model for the maximum spreading factor of impacting nanodroplets: From hydrophilic to hydrophobic surfaces. Langmuir, 2020, 36: 9306-9316. (SCI/EI)
●Wang Y B, Wang X D*, Yang Y R, Chen M*. The maximum spreading factor for polymer nanodroplets impacting a hydrophobic solid surface. The Journal of Physical Chemistry C, 2019, 123: 12841-12850. (SCI/EI)
●Wang Y B, Wang X D*, Wang T H, Yan W M*. Asymmetric heat treansfer characteristics of a double droplet impact on a moving liquid film. International Journal of Heat and Mass Transfer, 2018, 126: 649-659. (SCI/EI)
●Zhang B X, Wang S L, Wang Y B, Yang Y R, Wang X D*, Yang R G*. Harnessing reversible wetting transition to sweep contaminated superhydrophobicsurfaces. Accepted by Langmuir, 2021. (SCI/EI)
●Wang S L, Jin Z, Li J N, Zhang B X, Wang Y B, Yang Y R, Wang X D*, Lee D J*. Theoretical modeling of thermal conductivity of alumina aerogel composites based on real microstructures. Accepted by Journal of the Taiwan Institute of Chemical Engineers, 2021. (SCI/EI)
●Wang Y F, Wang Y B, Liu J Y, Wang S L, Yang Y R, Gao S R,Wang X D*. Spreading and retraction kinetics for impact of nanodroplets on hydrophobic surfaces.Physics of Fluids, 2020, 32: 092005.(SCI/EI)
●Xie F F, Wang D Q, Wang Y B, Yang Y R, Wang X D*. Coalescence-induced jumping of nanodroplets on mixed-wettability superhydrophobic surfaces. Canadian Journal of Physics, 2020. (SCI/EI)
●Wang X, Lin D J, Wang Y B, Gao S R, Yang Y R, Wang X D*. Rebound dynamics of two droplets simultaneously impacting a flat superhydrophobic surface. AIChE Journal, 2020, 66: e166647. (SCI, EI)
●Wang X, Wang Y B, Gao S R, Yang Y R, Wang X D*, Lee D J*. Controllable splitting of impacting droplets by hybrid-wettability surfaces. Journal of the Taiwan Institute of Chemical Engineers, 2020, 111: 24-33. (SCI/EI)
●Hong W P*, Wang Y B*. A coupled level set and volume-of-fluid simulation for heat transfer of the double droplet impact on a spherical liquid film. Numerical Heat Transfer Part B-Fundamentals, 2017, 71(4): 359-371. (SCI/EI)