·Paper Publications
- [51] 16Zijian Song; Ben Wang*; Jie Yu; Chuan Ma; Tao Chen; Wu Yang; Sheng Liu; Lushi Sun. Effect of Ti doping on heterogeneous oxidation of NO over Fe3O4 (111) surface by H2O2: A density functional study Chemical Engineering Journal, 2018, 354: 517-524..
- [52] 15Xiang Gao; Ben Wang; Xudong Yuan; Siyuan Lei; Qinggong Qu; Chuan Ma; Lushi Sun. Optimal design of selective catalyst reduction denitrification system using numerical simulation Journal of Environmental Management, 2019, 231: 909-918..
- [53] 14Song, Zijian; Wang, Ben; Yang, Wu; Chen, Tao; Wei, Li; Ma, Chuan; Sun, Lushi. Research on NO and SO2 removal using TiO2-supported iron catalyst with vaporized H2O2 in a catalytic oxidation combined with absorption process Environmental Science and Pollution Research, 2020, 27(15): 18329-18344..
- [54] 13Zijian Song; Ben Wang; Wu Yang; Tao Chen; Chuan Ma; Lushi Sun Simultaneous removal of NO and SO2 through heterogeneous catalytic oxidation-absorption process using magnetic Fe2.5M0.5O4 (M = Fe, Mn, Ti and Cu) catalysts with vaporized H2O2. Chemical Engineering Journal, 2020, 386: 123883..
- [55] 12Wang, Ben; Yang, Fan; Song, Zijian; Sun, Lushi* Removal of Hg(0), NO, and SO(2) by the surface dielectric barrier discharge coupled with Mn/Ce/Ti-based catalyst. Environ Sci Pollut Res Int, 2021, 28, 17648–17658..
- [56] 11Ben Wang; Zijian Song; Lushi Sun*. A review: Comparison of multi-air-pollutant removal by advanced oxidation processes – Industrial implementation for catalytic oxidation processes Chemical Engineering Journal, 2021, 409: 128136..
- [57] 10Lei, S., Du, Z., Song, Y., Zhang, T., Wang, B., Zhou, C., Sun, L., 2023. Performance and mechanisms of iron/copper-doped zirconium-based catalyst containing hydroxyl radicals for enhanced removal of gaseous benzene. Environ. Sci. Pollut. Res. 30, 56594-56607..
- [58] 9Yang, W., Song, Z., Wang, B., Lin, L., Sun, L., 2024. High temperature corrosion of particulate matter during MSW combustion: Effects of particle size, inorganic minerals and additives on corrosion rates and mechanisms. FUEL 358..
- [59] 8Yang, W., Gupta, R., Song, Z., Wang, B., Sun, L., 2024. Mechanism of soot and particulate matter formation during high temperature pyrolysis and gasification of waste derived from MSW. WASTE MANAGEMENT 182, 21-31..
- [60] 7Jiaxing Du, Wu Yang, Linlin Xu, Lei Bei, Siyuan Lei, Wei Li, Haitao Liu, Ben Wang, Lushi Sun. Review on post-combustion CO2 capture by amine blended solvents and aqueous ammonia. Chemical Engineering Journal 488 (2024) 150954..