1 |
Promoting fine particle removal in double-tower cascade wet flue gas desulfurization system by flue gas temperature reduction Wang QW, Wang LL, Wu H, Yang HM Powder Technology, 373, 581, 2020 |
2 |
Developing steady and dynamic ORP models for mercury emissions control in power plants using WFGD operating data Lv Y, Romero CE, Charles J, Pauvlinch KA, Watkins RW Fuel, 235, 54, 2019 |
3 |
Desulfurization of flue gas by means of lignite-derived potassium humate Cheng G, Zhang CX, Zhang XM, Jia K Fuel, 252, 646, 2019 |
4 |
저품위 석회석 활용을 위한 습식 배연탈황 공정 모델링 연구 임종훈, 최영렬, 김건열, 송호준, 김정환 Korean Chemical Engineering Research, 57(5), 743, 2019 |
5 |
Experimental study on the synergetic removal of fine particles by wet flue gas desulfurization tower with a flow pattern control device Chen Z, You CF, Wang HM, Liu QX Powder Technology, 343, 122, 2019 |
6 |
Study on the Hg emission and migration characteristics in coal-fired power plant of China with an ammonia desulfurization process Li CF, Duan YF, Tang HJ, Zhu C, Li YN, Zheng YW, Liu M Fuel, 211, 621, 2018 |
7 |
Corrosion evaluation of one wet desulfurization equipment - Flue gas desulfurization unit Gong Y, Yang ZG Fuel Processing Technology, 181, 279, 2018 |
8 |
Effect of sulfite on divalent mercury reduction and re-emission in a simulated desulfurization aqueous solution Chang L, Zhao YC, Li HL, Tian C, Zhang Y, Yu XH, Zhang JY Fuel Processing Technology, 165, 138, 2017 |
9 |
Formation and removal characteristics of sulfuric acid mist in a wet flue gas desulfurization system Pan DP, Yang LJ, Wu H, Huang RT, Zhang YP Journal of Chemical Technology and Biotechnology, 92(3), 588, 2017 |
10 |
Synergistic effect of the parameters affecting wet flue gas desulfurization using magnesium oxides by-products del Valle-Zermeno R, Niubo M, Formosa J, Guembe M, Aparicio JA, Chimenos JM Chemical Engineering Journal, 262, 268, 2015 |