[1] T Hu, P Jia, Y Wang, et al. Numerical simulation on convective thermal loss of a cavity receiver in a solar tower power plant[J]. Solar Energy, 150(2017): 202-211.
[2] Q. Deng, X. Xiao, Y. Hao, Q. Wang, T. Hu, Y. Wang, Heat transfer performance evaluation of a large-size cavity receiver in the solar power tower plant based on angle factors, Solar Energy, 148 (2017) 78-86.
[3] W. Nan, M. Ghadiri, Y. Wang, Analysis of powder rheometry of FT4: Effect of air flow, Chemical Engineering Science, 162 (2017) 141-151.
[4] W. Nan, Y. Wang, J. Wang, Numerical analysis on the fluidization dynamics of rodlike particles, Advanced Powder Technology, 27 (2016) 2265-2276.
[5] Y. Hao, Y. Wang, T. Hu, The flow distribution in the parallel tubes of the cavity receiver under variable heat flux, Applied Thermal Engineering, 108 (2016) 641-649.
[6] P. Chang, T. Hu, L. Wang, S. Chang, T. Wang, Y. Wang, Numerical Simulation on Structure Optimization of Liquid-Gas Cylindrical Cyclone Separator, International Journal of Chemical Engineering, (2016).
[7] C. Zhang, Y. Wang, Y. Liu, Y. Yang, A molecular dynamics study of water vapor nucleation in the presence of ions, Chemical Engineering Science, 137 (2015) 308-319.
[8] J. Wang, Y. Wang, Z. Chen, K. Chen, B. Li, The Numerical Simulation of Liquid-Vapor Stratified Flow in Horizontal Metal-Foam Tubes, Journal of Nanoscience and Nanotechnology, 15 (2015) 3161-3167.
[9] W. Nan, Y. Wang, H. Tang, A viscoelastic model for flexible fibers with material damping, Powder Technology, 276 (2015) 175-182.
[10] W. Nan, Y. Wang, Y. Liu, H. Tang, DEM simulation of the packing of rodlike particles, Advanced Powder Technology, 26 (2015) 527-536.
[11] G. Liu, Y. Wang, G. Zang, H. Zhao, Viscous Kelvin-Helmholtz instability analysis of liquid-vapor two-phase stratified flow for condensation in horizontal tubes, International Journal of Heat and Mass Transfer, 84 (2015) 592-599.
[12] J. Chen, Y. Wang, X. Li, R. He, S. Han, Y. Chen, Erosion prediction of liquid-particle two-phase flow in pipeline elbows via CFD-DEM coupling method, Powder Technology, 275 (2015) 182-187.
[13] W. Nan, Y. Wang, Y. Ge, J. Wang, Effect of shape parameters of fiber on the packing structure, Powder Technology, 261 (2014) 210-218.
[14] Y. Hao, K. Chen, Y. Wang, T. Hu, Effect of One-Target Focus Type on Hydrodynamic Characteristics of Tower Solar Cavity Receiver, Advances in Mechanical Engineering, (2014).
[15] Z. Zhou, G. Wang, B. Chen, L. Guo, Y. Wang, Evaluation of Evaporation Models for Single Moving Droplet with a High Evaporation Rate, Powder Technology, 240 (2013) 95-102.
[16] D. Li, Y. Wang, L. Guo, F. Xiao, Inter-particle collision effects on the entrained particle distribution in aeolian sand transport, International Journal of Heat and Mass Transfer, 58 (2013) 97-106.
[17] Z. Chen, Y. Wang, Y. Hao, Q. Wang, Effect of Step-Change Radiation Flux on Dynamic Characteristics in Tower Solar Cavity Receiver, Advances in Mechanical Engineering, (2013).
[18] Z. Zhou, B. Chen, Y. Wang, L. Guo, G. Wang, An experimental study on pulsed spray cooling with refrigerant R-404a in laser surgery, Applied Thermal Engineering, 39 (2012) 29-36.
[19] F. Xiao, L. Guo, D. Li, Y. Wang, Discrete particle simulation of mixed sand transport, Particuology, 10 (2012) 221-228
[20] Y. Wang, Y. Wang, K. Chen, B. Li, Non-equilibrium molecular dynamics simulation of electrokinetic effects on heterogeneous ionic transport in nano-channel, Chemical Engineering Science, 66 (2011) 2807-2816.
[21] Y. Wang, J. Wang, P. Jia, Performance of Forced Convection Heat Transfer in Porous Media Based on Gibson-Ashby Constitutive Model, Heat Transfer Engineering, 32 (2011) 1093-1098.
[22] Y. Wang, X. Dong, J. Wei, H. Jin, Numerical simulation of the heat flux distribution in a solar cavity receiver, Frontiers in Energy, 5 (2011) 98-103.
[23] W. Yueshe, D. Xunwei, W. Jinjia, J. Hui, Numerical simulation of the heat flux distribution in a solar cavity receiver, Frontiers of Energy and Power Engineering in China, 4 (2010) 571-576.
[24] X. Ma, Y. Wang, F. Yu, G. Wang, Numerical simulations of the discontinuous progression of cerebral aneurysms based on fluid-structure interactions study, Science China-Physics Mechanics & Astronomy, 53 (2010) 944-953.
[25] Y. Wang, Y. Wang, G.X. Wang, H. Honda, Prediction of evaporation heat transfer coefficient based on gas-liquid two-phase annular flow regime in horizontal microfin tubes, Applied Thermal Engineering, 29 (2009) 2970-2976.
[26] G. Li, Y. Wang, R. He, X. Cao, C. Lin, T. Meng, Numerical simulation of predicting and reducing solid particle erosion of solid-liquid two-phase flow in a choke, Petroleum Science, 6 (2009) 91-97.
[27] W. Yueshe, B. Bofeng, C. Yongli, H. Honda, Numerical gas-liquid stratified flow regime model on evaporation heat transfer in horizontal microfin tubes, Heat Transfer-Asian Research, 36 (2007) 315-323.