Ziyan Wang

Ziyan Wang Master student Department of Engineering Mechanics School of Aerospace, Tsinghua University Beijing 100084, China Email: 13522784904@126.com

 

Education

• Master student (2014-2017 )

Department of Engineering Mechanics, School of Aerospace, Tsinghua University

Supervisor: Prof. Moran Wang

• Bachelor of Science (2010-2014)

       Tsien Excellence in Education Program, School of Aerospace, Tsinghua University

       Thesis: Mesoscale simulation of non-ideal gas flow in micro porous media

       Supervisor: Prof. Moran Wang

 

Experiences

• Visiting student, University of California San Diego, USA, 2013.7-2013.8

• Visiting student, RWTH-Aachen, Germany, 2016.6-2016.8

 

Research Interests

• Pore-scale study of gas transport in porous media

• Multiscale simulation for transport phenomena (e.g. Solving field-scale problem based on pore-scale simulation).

• Coupling of multi-physics during transport (e.g. high Knudsen number effect, real gas effect, structure deformation).

 

Honors and Awards

• 2016   ‘Guanghua’ scholarship

• 2015   ‘Guanghua’ scholarship

• 2012   Selected into the Spark Program of Tsinghua University

• 2012   First-class prize in physics contest of college students

• 2010   Scholarship of Tsinghua Xuetang Talents Program

 

Publications

In Journal

Ø  Z.Y. Wang, R. Fink, Y. Wang, A. Amann-Hildenbrand, B. Krooss, M. Wang*. Gas permeability calculation of tight rocks based on laboratory measurements by considering non-ideal gas slippage and pore-elastic effects. International Journal of Rock Mechanics and Mining Sciences 112: 16-24, 2018

Ø  Z.Y. Wang, M. Wang*, S. Chen. Coupling of high-Knudsen and non-ideal gas effects in microporous media. Journal of Fluid Mechanics 840: 56-73, 2018

Ø  J. Zheng, Z. Chen, C.Y. Xie, Z. Wang, Z. Lei, Y. Ju and M. Wang*. Characterization of spontaneous imbibition dynamics in irregular pores by lattice Boltzmann modeling. Computers & Fluids 168: 21-31, 2018

Ø  J. Zheng, Z. Wang, W. Gong, Y. Ju and M. Wang*. Morphology effects of shale nanopores on gas permeability using lattice Boltzmann modeling. Journal of Natural Gas Science and Engineering 47: 83-90, 2017

Ø  Y. Guo, Z. Y. Wang, M. Wang*. Thermodynamic extreme principles for non-equilibrium stationary state in heat conduction. Journal of Heat Transfer 139(7): 071303, 2017

Ø  Z. Wang, X. Jin, X. Wang, L. Sun, M. Wang*. Pore-scale geometry effects on gas permeability in shale. Journal of Natural Gas Science and Engineering 34: 948-957, 2016

Ø  Z. Wang, Y. Guo, M. Wang*. Permeability of high-Kn real gas flow in shale and production prediction by pore-scale modeling. Journal of Natural Gas Science and Engineering 28: 328-337, 2016

 

In International Conference

Ø  Z. Wang, Y. Guo, M. Wang*. Flow of high-Kn real gas in shale by pore scale modeling. International Conference of China Shale Gas, 2015, Wuhan, China.