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Yuqing Wang

Dr. Yuqing Wang

2017, Visiting Postdoc (Humboldt Fellowship), 2015 - Visiting Ph.D. Student
Tsinghua University/ Beijing, PRC
Raum: 007, Geb./Bldg. 11.21
Tel.: +49 721 608-46678
yuqing wangEvt3∂partner kit edu

Postal address:
Institute for Chemical Technology and Polymer Chemistry
Engesserstr. 20
Campus South Bldg. 11.21
76131 Karlsruhe
Germany


Education/Degrees

2012-2017

PhD in Energy and Power Engineering

Department of Energy and Power Engineering, Tsinghua University, Beijing, China

PhD thesis: “Mechanism and Characteristics Research on Solid Oxide Flame Fuel Cells”

2008-2012

Bachelor of Energy and Power Engineering

Tsinghua University, Beijing, China

 

 

 

Work History

11/2017-present 

Visiting Postdoc Researcher (Humboldt Research Fellowship)

Institute for Chemical Technology and Polymer Chemistry, Karlsruhe Institute of Technology, Germany

07/2017-present 

Assistant Professor

Department of Mechatronics, Beijing Institute of Technology, China

 

 

Research Interests

  • Multi-scale modeling of reaction processes, especially for combustion and high temperature fuel cells
  • Engineering system concept design, steady-state/dynamic modeling and simulation
  • Experimental characterization technique of solid oxide fuel cells and fuel-rich burners

Publications

Journal Articles

[1] Y. Wang, H. Zeng, Y. Shi, N. Cai. Methane partial oxidation in a two-layer porous media burner with Al2O3 pellets of different diameters. Fuel 217 (2018) 45-50.

[2] Y. Wang, H. Zeng, Y. Shi, T. Cao, N. Cai. Mathematical modeling of a porous media burner based methane flame fuel cell. Journal of The Electrochemical Society 164(2017) E3627-E3634.

[3] H. Zeng, Y. Wang, Y. Shi, N. Cai, X. Ye, S. Wang. Highly thermal-integrated flame fuel cell module with high temperature heatpipe. Journal of The Electrochemical Society 164(2017) F1478-F1482.

[4] H. Zeng, Y. Wang, Y. Shi, N. Cai. Biogas-fueled flame fuel cell for micro-combined heat and power system. Energy Conversion and Management 148(2017) 701-707.

[5] H. Zeng, Y. Wang, Y. Shi, M. Ni, N. Cai. Syngas production from CO2/CH4 rich combustion in a porous media burner: Experimental characterization and elementary reaction model. Fuel 199(2017) 413-419.

[6] Y. Wang, H. Zeng, A. Banerjee, Y. Shi, O. Deutschmann, N. Cai. Elementary reaction modeling and experimental characterizations on methane partial oxidation with catalyst enhanced porous media combustor. Energy & Fuels 30(2016) 7778-7785.

[7] Y. Wang, H. Zeng, T. Cao, Y. Shi, N. Cai, X. Ye, S. Wang. Start-up and operation characteristics of a flame fuel cell unit. Applied Energy 17(2016) 415-421.

[8] Y. Wang, H. Zeng, Y. Shi, T. Cao, N. Cai, X. Ye, S. Wang. Power and heat co-generation by micro-tubular flame fuel cell on a porous media burner. Energy 109(2016) 117-123.

[9] W. Li, Y. Shi, Y. Luo, Y. Wang, N. Cai. Carbon monoxide/carbon dioxide electrochemical conversion on patterned nickel electrodes operating in fuel cell and electrolysis cell modes. International Journal of Hydrogen Energy 41(2016) 3762-3773.

[10] W. Li, Y. Shi, Y. Luo, Y. Wang, N. Cai. Carbon deposition on patterned nickel/yttria stabilized zirconia electrodes for solid oxide fuel cell/solid oxide electrolysis cell modes. Journal of Power Sources 276(2015) 26-31.

[11] X. Wang, Y. Shi, W. Li, N. Cai, Y. Wang, T. Cao. Nitrogen oxide electrochemical reduction characteristics on patterned platinum electrode. Solid State Ionics 277(2015) 57-64.

[12] Y. Wang, Y. Shi, X. Yu, N. Cai. Thermal shock resistance and failure probability analysis on solid oxide electrolyte direct flame fuel cells. Journal of Power Sources 255(2014) 377-386.

[13] Y. Wang, Y. Shi, M. Ni, N. Cai. A micro tri-generation system based on direct flame fuel cells for residential applications. International Journal of Hydrogen Energy 39(2014) 5996-6005.

[14] Y. Wang, Y. Shi, X. Yu, N. Cai, J. Qian, S. Wang. Experimental characterization of a direct methane flame solid oxide fuel cell power generation unit. Journal of the Electrochemical Society 161(2014) F1348-F1353.

[15] Y. Wang, Y. Shi, X. Yu, N. Cai, S. Li. Integration of solid oxide fuel cells with multi-element diffusion flame burners. Journal of The Electrochemical Society 160(2013) F1241-F1244.

 

Conference:

[1] Y. Wang, Y. Shi, N. Cai, X. Ye, S. Wang. Performance characteristics of a micro-tubular solid oxide fuel cell operated with a fuel-rich methane flame. 14th International Symposium on Solid Oxide Fuel Cells (SOFC-XIV), Scotland, 2015. (Oral Presentation)

[2] Y. Wang, Y. Shi, X. Yu, N. Cai, S. Li. Direct flame fuel cell performance using a multi-element diffusion flame burner. 13th International Symposium on Solid Oxide Fuel Cells (SOFC-XIII), Japan, 2013. (Oral Presentation)