Name: Shimin, Wang

Gender: male

Department of Earth Sciences
Eamils： smwang@ucas.ac.cn
Address： No. 19 yuquan road, Beijing
Postcode： 100049

Research Area:

Dynamics of the earth, geotherm and heat transmission science

Education:

2006-01--2009-05:   Ph.D, University of Missouri.
1993-09--1996-07 PH.D, c;
1990-09--1993-07 Master, Peking University;
1986-09--1990-07   Bachelor, Peking University;

Work Eeperience:

2012-12~Pre, professior, University of Chinese Academy of Sciences,
2011-03~2012-10, post-PH.D, University of Nebraska-Lincoln,
2009-04~2011-03, Assistant Research Professor, University of Connecticut, 

2006-01~2009-04, lecturer, University of Missouri,  
2003-08~2005-12, post-PH.D, University of Missouri,
2000-10~2001-06, visiting scholar, Uppsala University in Sweden,
2000-08~2005-05, Assosiate professior, Peking University.
1998-12~2000-07, Lecturer, Peking University,
1996-08~1998-12, post-PH.D, Institute of geophysics, China seismological bureau, 

Selected Publications:

（1） Numerical modeling of porous flow in fractured rock and its applications in geothermal energy extraction, Journal of Earth Science, 26 (1), 20-27, 2015,
（2） Investigating self-cooling effects of ventilated attics under different roof and ambient temperatures in summer, Journal of Civil Engineering and Management, 20 (5), 674-685, 2014,
（3） Numerical simulation of buoyancy-driven turbulent ventilation in attic space under winter conditions, Energy and Buildings, 47, 360-368, 2012,
（4） Impacts of ventilation ratio and vent balance on cooling load and air flow of naturally ventilated attics, Energies, 5 (9), 3218-3232, 2012,
（5） The impact of roof pitch and ceiling insulation on cooling load of naturally-ventilated attics, Energies, 5 (7), 2178-2196, 2012,
（6） Effects of roof pitch on air flow and heating load of sealed and vented attics for gable-roof residential buildings, Sustainability, 4 (9), 1999-2021, 2012,
（7） A comparison study of sensible and latent thermal energy storage systems for concentrating solar power applications, Numerical Heat Transfer, Part A: Applications, 61 (11), 860-871, 2012,
（8） Melting in Cylindrical enclosures: numerical modeling and heat transfer correlations, Numerical Heat Transfer, Part A: Applications, 61 (11), 837-859, 2012,
（9） Transient natural convection in vertical annuli: numerical modeling and heat transfer correlation, Numerical Heat Transfer, Part A: Applications, 61 (11), 823-836, 2012,
（10） Heat pipe-assisted melting of a phase change material, International Journal of Heat and Mass Transfer, 55 (13/14), 3458-3469, 2012,
（11） A comprehensive numerical model for melting with natural convection, International Journal of Heat and Mass Transfer, 53 (9/10), 1986-2000, 2010,
（12） Numerical modeling of alternate melting and solidification, Numerical Heat Transfer, Part B: Fundamentals, 58 (6), 393-418, 2010,
（13） Forced-convection heat transfer of microencapsulated phase-change material suspensions flow in a circular tube subject to external convective heating, Journal of Enhanced Heat Transfer, 15 (2), 171-181, 2008,
（14） Moving hotspots or reorganized plates, Geology, 34 (6), 465-468, 2006,
（15） Current plate velocities relative to hotspots: implications for hotspot motion, mantle viscosity and global reference frame, Earth and Planetary Science Letters, 189 (3/4), 133-140, 2001,
（16） Correspondence relation between linear elastic problem and Newtonian fluid problem, Chinese Journal of Geophysics, 43 (1), 74-80, 2000,
（17） Joint inversion of the kinematics and dynamics of the North American plate, Tectonophysics, 302 (3/4), 173-201, 1999,