研究领域
固体氧化物燃料电池模拟与设计
光氢燃料电池互补发电系统
管道阴极保护模拟
磁控溅射阴极磁场设计
水系电池集流设计
近期论文
查看导师新发文章
(温馨提示:请注意重名现象,建议点开原文通过作者单位确认)
[1] W. Kong, W. Zhang, S. Zhang, Q. Zhang, S. Su, Residual stress analysis of a micro-tubular solid oxide fuel cell, International Journal of Hydrogen Energy, 41 (2016) 16173-16180.
[2] S. Su, Q. Zhang, X. Gao, V. Periasamy, W. Kong*, Effects of changes in solid oxide fuel cell electrode thickness on ohmic and concentration polarizations, International Journal of Hydrogen Energy, 41 (2016) 16181-16190.(通讯作者)
[3] W. Kong, Q. Zhang, X. Xu, D. Chen, A Simple Expression for the Tortuosity of Gas Transport Paths in Solid Oxide Fuel Cells’ Porous Electrodes, Energies, 8 (2015) 13953-13959.
[4] S. Su, H. He, D. Chen*, W. Zhu, Y. Wu, W. Kong*, B. Wang, L. Lu, Flow distribution analyzing for the solid oxide fuel cell short stacks with rectangular and discrete cylindrical rib configurations, International Journal of Hydrogen Energy, 40 (2015) 577-592. (通讯作者)
[5] W. Kong, Q. Zhang, X. Gao, J. Zhang, D. Chen, S. Su, A Method for Predicting the Tortuosity of Pore Phase in Solid Oxide Fuel Cells Electrode, INTERNATIONAL JOURNAL OF ELECTROCHEMICAL SCIENCE, 10 (2015) 5800-5811.
[6] W. Kong, X. Gao, S. Liu, S. Su, D. Chen, Optimization of the interconnect ribs for a cathode-supported solid oxide fuel cell, Energies, 7 (2014) 295-313.
[7] W. Kong, H. Zhu, Z. Fei, Z. Lin, A modified dusty gas model in the form of a Fick's model for the prediction of multicomponent mass transport in a solid oxide fuel cell anode, Journal of Power Sources, 206 (2012) 171-178.
[8] W. Kong, J. Li, S. Liu, Z. Lin, The influence of interconnect ribs on the performance of planar solid oxide fuel cell and formulae for optimal rib sizes, Journal of Power Sources, 204 (2012) 106-115.
[9] J. Li, W. Kong, Z. Lin, Theoretical studies on the electrochemical and mechanical properties and microstructure optimization of micro-tubular solid oxide fuel cells, Journal of Power Sources, 232 (2013) 106-122.
[10] D. Chen, L. Lu, J. Li, Z. Yu, W. Kong, H. Zhu, Percolation micro-model to predict the effective properties of the composite electrode with poly-dispersed particle sizes, Journal of Power Sources, 196 (2011) 3178-3185.
[11] D. Chen, W. Kong, Z. Lin, Equivalent circuit model for the determination of the inter-layer thickness of SOFC composite electrode, American Institute of Physics Conference Series, 2011, pp. 1051-1052.
[12] D. Chen, W. Bi, W. Kong, Z. Lin, Combined micro-scale and macro-scale modeling of the composite electrode of a solid oxide fuel cell, Journal of Power Sources, 195 (2010) 6598-6610.
[13] S. Liu, W. Kong, Z. Lin, Three-dimensional modeling of planar solid oxide fuel cells and the rib design optimization, Journal of Power Sources, 194 (2009) 854-863.
[14] S. Liu, W. Kong, Z. Lin, A microscale modeling tool for the design and optimization of solid oxide fuel cells, Energies, 2 (2009) 427-444.