1 |
张兴柱. HPF湿式氧化法焦炉煤气脱硫脱氰技术[J]. 燃料与化工, 2003(4): 205-206.
|
|
ZHANG Xingzhu. Technology for H2S and HCN removal from COG with HPF wet oxidation process [J]. Fuels and Chemicals, 2003(4): 205-206.
|
2 |
李晓飞, 刘彦. 焦炉煤气湿法脱硫工艺及进展[J]. 煤炭与化工, 2018, 41(2): 26-28.
|
|
LI Xiaofei, LIU Yan. Technologies of wet desulphurization for coke oven gas and its prospects [J]. Coal and Chemical Industry, 2018,41(2): 26-28.
|
3 |
李会玲. 浅析焦炉气脱硫工艺[J]. 化工管理, 2015(9): 177.
|
|
LI Huiling. Analysis of coke oven gas desulfurization process [J]. Chemical Management, 2015(9): 177.
|
4 |
王涛, 余德阳, 陈宇, 等. 氨法脱硫废液资源化利用的研究进展[J]. 化学与生物工程, 2018, 35(9): 9-13.
|
|
WANG Tao, YU Deyang, CHEN Yu, et al. Research progress in resourceful utilization of waste liquid from ammonia desulphurization [J]. Chemical and Biological Engineering, 2018,35(9): 9-13.
|
5 |
付本全, 张垒, 王丽娜, 等. 国内焦炉煤气脱硫废液处理研究进展[J]. 武钢技术, 2014, 52(4): 46-50.
|
|
FU Benquan, ZHANG Lei, Wang Lina, et al. Research progress on treatment of desulfurization waste liquid of domestic coke oven gas [J]. WISCO Technology, 2014, 52(4): 46-50.
|
6 |
张亚峰, 安路阳, 张立涛, 等. 焦化脱硫废液提盐技术进展[J]. 煤炭加工与综合利用, 2017(6): 46-52.
|
|
ZHANG Yafeng, AN Luyang, ZHANG Litao, et al. Advances in salt extraction technology from coking desulfurization waste liquid [J]. Coal Processing and Comprehensive Utilization, 2017(6): 46-52.
|
7 |
杨太宝, 张晓林. 脱硫液提取副盐技术的应用[J]. 燃料与化工, 2015, 46(1): 49-50.
|
|
YANG Taibao, ZHANG Xiaolin. Application of secondary salt extraction technology from desulfurization liquid [J]. Fuels and Chemicals, 2015, 46(1): 49-50.
|
8 |
张翠翠. 脱硫废液提盐回收技术[D]. 太原: 太原理工大学, 2013.
|
|
ZHANG Cuicui. A Study on the resourceful treatment of desulfurization waste liquid of coke oven gas [D]. Taiyuan: Taiyuan University of Technology, 2013.
|
9 |
程锦. 水溶液中Na2SO4、Na2S2O3和NaSCN的分离提取研究[D]. 上海: 华东理工大学, 2017.
|
|
CHENG Jin. Separation and extraction of Na2SO4, Na2S2O3 and NaSCN in the aqueous solution [D]. Shanghai: East China University of Science and Technology, 2017.
|
10 |
柴永瑞. 焦化企业脱硫废液提盐工艺的研究与优化[D]. 唐山: 华北理工大学, 2019.
|
|
CHAI Yongrui. Study and optimization of desulfurization wastewater salt extraction technology of coking enterprises [D]. Tangshan: North China University of Science and Technology, 2019.
|
11 |
刘晨明, 王波, 曹宏斌, 等. 焦炉煤气HPF脱硫工艺废液处理新技术[J]. 煤化工, 2011, 39(1): 11-14.
|
|
LIU Chenming, WANG Bo, CAO Hongbin, et al. A novel technology on the treatment of wastewater from the COG HPF desulfurization unit [J]. Coal Chemical Industry, 2011, 39(1): 11-14.
|
12 |
张亚峰, 刘硕, 裴振, 等. 焦化脱硫废液提盐工程实例[J]. 工业水处理, 2021, 41(1): 136-141.
|
|
ZHANG Yafeng, LIU Shuo, PEI Zhen, et al. An engineering case of salt extraction from coking desulfurizationwaste liquid [J]. Industrial Water Treatment, 2021, 41(1): 136-141.
|
13 |
杨少红, 罗成泉. 涟钢焦化脱硫废液提粗盐技术的应用[J]. 涟钢科技与管理, 2019(1): 23-25.
|
|
YANG Shaohong, LUO Chengquan. Application of LY steel coking desulfurization waste liquid to extract coarse salt [J]. LY Steel Technology and Management, 2019(1): 23-25.
|
14 |
于晓, 胡宗锋, 王炳强, 等. 焦化脱硫废液中硫代硫酸铵与硫氰酸铵的定量检测方法[J]. 上海化工, 2016, 41(4): 15-16.
|
|
YU Xiao, HU Zongfeng, WANG Bingqiang, et al. Quantitative detection method of ammonium thiosulfate and ammonium thiocyanate in coking desulfurization waste liquid [J]. Shanghai Chemical Industry, 2016, 41(4): 15-16.
|
15 |
姜丽芬, 朱利培, 杨淑琴. 甲醛掩蔽法测定硫铵母液中的硫代硫酸铵含量[J]. 浙江冶金, 2014(4): 43-45.
|
|
JIANG Lifen, ZHU Lipei, YANG Shuqin. Determination of ammonium thiosulfate content in ammonium sulfate mother liquid by formaldehyde masking method [J]. Zhejiang Metallurgy, 2014(4): 43-45.
|
16 |
陈聪. 脱硫废液的除盐和回用技术研究[D]. 北京: 北京化工大学, 2011.
|
|
CHEN Cong. Studying on desalination and reusing technology of desulfurization waste Solution [D]. Beijing: Beijing University of Chemical Technology, 2011.
|
17 |
XIAO Z, LI D, WANG F, et al. Simultaneous removal of NO and SO2 with a new recycling micro-nano bubble oxidation-absorption process based on HA-Na [J]. Separation and Purification Technology, 2020, 242: 116788.
|
18 |
AGARWAL A, NG W J, LIU Y. Principle and applications of microbubble and nanobubble technology for water treatment[J]. Chemosphere, 2011, 84(9): 1175-1180.
|
19 |
杜国勇. 活性污泥法处理含硫代硫酸盐的废水[J]. 石油与天然气化工, 1988(3): 58-63.
|
|
DU Guoyong. Activated sludge treatment of wastewater containing thiosulfate[J]. Petroleum and Natural Gas Chemical, 1988(3): 58-63.
|
20 |
LARA J G, CARDONA F, VALLMAJOR A, et al. Oxidation of thiosulfate with oxygen using copper (Ⅱ) as a catalyst[J]. Metals Open Access Metallurgy Journal, 2019, 9(4): 387.
|
21 |
张基因. 生物燃油废水脱除硫酸根处理及资源化利用研究[D]. 哈尔滨: 东北农业大学, 2018.
|
|
ZHANG Jiyin. Removal of sulfate from bio-fuel wastewater and its resource utilization [D]. Harbin: Northeastern Agricultural University, 2018.
|
22 |
易亮. 基于颗粒自碰撞的废铅膏脱硫新方法实验研究[D]. 湘潭: 湘潭大学, 2016.
|
|
YI Liang. A new desulfurization method of damped lead battery paste based on the principle particle self collision [D]. Xiangtan: Xiangtan University, 2016.
|
23 |
ZHANG J, YI L, YANG L, et al. A new pre-desulphurization process of damped lead battery paste with sodium carbonate based on a “surface update” concept[J]. Hydrometallurgy, 2016,160: 123-128.
|
24 |
边文璟. 基于粒子研磨作用的废铅膏脱硫新方法实验研究[D]. 湘潭: 湘潭大学, 2016.
|
|
BIAN Wenjing. The new experimental research of damped lead paste desulfurization based on the particle grinding effect [D]. Xiangtan: Xiangtan University, 2016.
|