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wang yuqing

name

wang yuqing
title

assistant professor
address

room 404, state key laboratory of explosion science and technology , school of mechatronical engineering, beijing institute of technology, beijing, china
tel
email

wangyq@bit.edu.cn

research interests

multi-scale modeling of reaction processes, especially for catalytic processes and high temperature fuel cells
engineering system concept design, steady-state/dynamic modeling and simulation
experimental characterization technique of solid oxide fuel cells

academic achievements

[1] y. wang, y. shi, y. luo, n. cai, y. wang. dynamic analysis of a micro chp system based on flame fuel cells. energy conversion and management 163(2018) 268-277. (sci, if=5.589)
[2] 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. (sci, if=4.601)
[3] hongyu zeng, yuqing wang, yixiang shi, ningsheng cai, dazhong yuan. highly thermal integrated heat pipe-solid oxide fuel cell. applied energy 216(2018) 613-619. (sci, if=7.182)
[4] 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. (sci, if=3.259)
[5] 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. (sci, if=3.259)
[6] 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. (sci, if=5.589)
[7] 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. (sci, if=4.601)
[8] 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. (sci, if=3.091)
[9] 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. (sci, if=7.182)
[10] 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. (sci, if=4.520)