| 1 |
周艳丽. 硫酸钠和氯化钠高盐废水分盐工艺研究[J]. 煤炭与化工,2020,43(6):134-136.
|
|
ZHOU Yanli. Study on salt separation technology of sodium sulfate and sodium chloride high salt wastewater[J]. Coal and Chemical Industry,2020,43(6):134-136.
|
| 2 |
任晶,赵婷婷,文斌,等. 碎煤气化高浓废水零排放及分盐结晶中试试验思考[J]. 工业水处理,2020,40(9):127-130.
|
|
REN Jing, ZHAO Tingting, WEN Bin,et al. Reflections on pilot test of zero discharge and salt crystallization of high concentration wastewater from crushed coal gasification[J]. Industrial Water Treatment,2020,40(9):127-130.
|
| 3 |
李大海,张星星,陈甘,等. 预处理+多级膜浓缩+蒸发结晶+膜电解组合工艺在造纸废水零排放工程上的应用[J]. 环境工程,2021,39(7):185-191. doi:10.13205/j.hjgc.202107026
|
|
LI Dahai, ZHANG Xingxing, CHEN Gan,et al. Application of pretreatment+multistage membrane concentration+evaporative crystallization+membrane electrolysis combined process in a zero discharge project of papermaking wastewater[J]. Environmental Engineering,2021,39(7):185-191. doi:10.13205/j.hjgc.202107026
|
| 4 |
李川军. 高含盐废水分盐结晶处理工艺技术组合对比[J]. 化工管理,2020(27):166-167. doi:10.3969/j.issn.1008-4800.2020.27.083
|
|
LI Chuanjun. Comparison of technology combination for salt crystallization treatment of highly saline wastewater[J]. Chemical Enterprise Management,2020(27):166-167. doi:10.3969/j.issn.1008-4800.2020.27.083
|
| 5 |
彭美凡,彭赛军,李燕,等. NaCl-Na2SO4-H2O体系卤水热循环法盐硝联产专利技术改进工艺[J]. 中国井矿盐,2021,52(3):1-3.
|
|
PENG Meifan, PENG Saijun, LI Yan,et al. NaCl-Na2SO4-H2O patent technology improvement of salt and nitrate production by system brine thermal cycle method[J]. China Well and Rock Salt,2021,52(3):1-3.
|
| 6 |
马瑞,何灿,海玉琰,等. 低温结晶法分离芒硝[J]. 石化技术,2017,24(5):12-14. doi:10.3969/j.issn.1006-0235.2017.05.010
|
|
MA Rui, HE Can, Yuyan HAI,et al. Low temperature crystallization method[J]. Petrochemical Industry Technology,2017,24(5):12-14. doi:10.3969/j.issn.1006-0235.2017.05.010
|
| 7 |
熊日华,何灿,马瑞,等. 高盐废水分盐结晶工艺及其技术经济分析[J]. 煤炭科学技术,2018,46(9):37-43. doi:10.13199/j.cnki.cst.2018.09.006
|
|
XIONG Rihua, HE Can, MA Rui,et al. Process introduction and techno-economic analysis on pure salt recovery crystallization for high salinity wastewater[J]. Coal Science and Technology,2018,46(9):37-43. doi:10.13199/j.cnki.cst.2018.09.006
|
| 8 |
LU Haijiao, WANG Jingkang, YU Jun,et al. Phase equilibria for the pseudo-ternary system(NaCl+Na2SO4+H2O) of coal gasification wastewater at T =(268.15 to 373.15) K[J]. Chinese Journal of Chemical Engineering,2017,25(7):955-962. doi:10.1016/j.cjche.2016.08.016
|
| 9 |
黄欣,陈业钢,苏楠楠,等. 高盐废水分质结晶及资源化利用研究进展[J]. 化学工业与工程,2019,36(1):10-23.
|
|
HUANG Xin, CHEN Yegang, SU Nannan,et al. Research on fractional crysallization technologies for recovering salts from high salinity wastewater[J]. Chemical Industry and Engineering,2019,36(1):10-23.
|
| 10 |
李东,桑华俭,李杨,等. 高盐废水零排放结晶盐资源化工艺分析与比较[J]. 工业用水与废水,2019,50(6):1-5.
|
|
LI Dong, SANG Huajian, LI Yang,et al. Analysis and comparison of techniques for crystallized salt utilization during the process of high salinity wastewater zero discharge[J]. Industrial Water & Wastewater,2019,50(6):1-5.
|
| 11 |
YAN Zhiqin, ZENG Lanmu, LI Qian,et al. Selective separation of chloride and sulfate by nanofiltration for high saline wastewater recycling[J]. Separation and Purification Technology,2016,166:135-141. doi:10.1016/j.seppur.2016.04.009
|
| 12 |
AL-ALAWY A F H, AL-NAEMI A N A, HUSSEIN M Y. Zeta potential,effective membrane charge and donnan potential for TiO2 NF ceramic membrane[J]. Journal of Engineering,2018,24(9):21-40. doi:10.31026/j.eng.2018.09.02
|
| 13 |
陈静,张杰,金艳,等. 纳滤-反渗透集成处理海水淡化浓盐水工艺研究[J]. 水处理技术,2017,43(5):108-113.
|
|
CHEN Jing, ZHANG Jie, JIN Yan,et al. Study on treatment technology of concentrated brine from seawater desalination by NF and RO integrated processing[J]. Technology of Water Treatment,2017,43(5):108-113.
|
| 14 |
张栋强,陈彦安,李保胜,等. 纳滤-冷冻析硝工艺用于高盐废水中Na2SO4回收的研究[J]. 南京工业大学学报:自然科学版,2021,43(5):553-559.
|
|
ZHANG Dongqiang, CHEN Yanan, LI Baosheng,et al. Nanofiltration-refrigeration denitration process for recovery of Na2SO4 in high-saline wastewater[J]. Journal of Nanjing Tech University:Natural Science Edition,2021,43(5):553-559.
|
| 15 |
朱礼旺,徐亮,宋伟,等. 冷冻结晶技术处理高盐废水的研究[J]. 浙江化工,2021,52(2):36-40. doi:10.3969/j.issn.1006-4184.2021.02.012
|
|
ZHU Liwang, XU Liang, SONG Wei,et al. Study on the treatment of high salinity wastewater by freezing crystalization technology[J]. Zhejiang Chemical Industry,2021,52(2):36-40. doi:10.3969/j.issn.1006-4184.2021.02.012
|
| 16 |
张小亚,苑宏英,石雪莉,等. 氯化钠/硫酸钠体系的纳滤分盐试验分析[J]. 膜科学与技术,2020,40(5):111-117.
|
|
ZHANG Xiaoya, YUAN Hongying, SHI Xueli,et al. Experimental analysis of sodium chloride/sodium sulfate system by nanofiltration[J]. Membrane Science and Technology,2020,40(5):111-117.
|
| 17 |
汪丹丹,金政伟,井云环,等. 煤化工废水纳滤分盐效果及影响因素试验[J]. 净水技术,2021,40(11):121-127. doi:10.15890/j.cnki.jsjs.2021.11.019
|
|
WANG Dandan, JIN Zhengwei, JING Yunhuan,et al. Experiment of effect and influencing factors of nanofiltration on salt separation for coal-chemical wastewater treatment[J]. Water Purification Technology,2021,40(11):121-127. doi:10.15890/j.cnki.jsjs.2021.11.019
|
| 18 |
夏俊方. 纳滤膜在高盐废水零排放应用中的分盐特征研究[J]. 工业用水与废水,2020,51(1):28-31. doi:10.3969/j.issn.1009-2455.2020.01.006
|
|
XIA Junfang. Study on characteristics of salt separation by nanofiltration membrane in zero discharge of high salinity wastewater[J]. Industrial Water & Wastewater,2020,51(1):28-31. doi:10.3969/j.issn.1009-2455.2020.01.006
|
| 19 |
赵泽盟,王小强,史元腾,等. 高盐水资源化盐-硝联产和纳滤分盐工艺路线技术经济对比[J]. 煤炭加工与综合利用,2018(10):34-37.
|
|
ZHAO Zemeng, WANG Xiaoqiang, SHI Yuanteng,et al. Technical and economic comparison of the process route of high-salt water resource salt-nitrate co-production and salt nanofiltration[J]. Coal Processing & Comprehensive Utilization,2018(10):34-37.
|
| 20 |
时孝磊,胡彦云,张永珍,等. 火电厂全厂末端废水分盐处理工程实例[J]. 给水排水,2019,55(7):92-95.
|
|
SHI Xiaolei, HU Yanyun, ZHANG Yongzhen,et al. Application of salt separation technology on treatment of terminal wastewater in a thermal power plant[J]. Water & Wastewater Engineering,2019,55(7):92-95.
|
| 21 |
赛世杰,党平,刘慧,等. 煤化工高盐废水分质盐零排放技术的运行效果研究[J]. 煤炭加工与综合利用,2017(4):52-55.
|
|
Shijie SAI, DANG Ping, LIU Hui,et al. Study on operation effect of zero discharge technology of separated salt in highly saline wastewater of coal chemical industry[J]. Coal Processing & Comprehensive Utilization,2017(4):52-55.
|
| 22 |
区瑞锟,姜广义. 一种含氯化钠与硫酸钠的高盐废水资源化处理方法:CN107304090A[P]. 2017-10-31.
|
| 23 |
吴雅琴,申屠勋玉,杨波,等. 膜集成技术在煤化工高盐废水资源化中的应用[J]. 煤化工,2016,44(4):6-9. doi:10.3969/j.issn.1005-9598.2016.04.002
|
|
WU Yaqin, SHENTU Xunyu, YANG Bo,et al. Application of membrane integration process in high saline wastewater recycling of coal chemical industry[J]. Coal Chemical Industry,2016,44(4):6-9. doi:10.3969/j.issn.1005-9598.2016.04.002
|
| 24 |
吴雅琴,杨波,张高旗,等. 膜集成技术在高盐废水资源化工程中的应用[J]. 水处理技术,2019,45(4):131-134.
|
|
WU Yaqin, YANG Bo, ZHANG Gaoqi,et al. Application of membrane integrated technology in high salinity wastewater recycling project[J]. Technology of Water Treatment,2019,45(4):131-134.
|
| 25 |
郝红勋,卢海娇,苏楠楠,等. 从高盐废水中提取可资源化利用的高纯度硫酸钠和氯化钠的分质结晶方法:CN107867707B[P]. 2019-08-09.
|
| 26 |
杨东昱,崔德圣,李宏秀,等. 电渗析技术处理火电厂废水应用与研究进展[J]. 水处理技术,2022,48(1):23-28.
|
|
YANG Dongyu, CUI Desheng, LI Hongxiu,et al. Electrodialysis technology for wastewater treatment in thermal power plant:A review[J]. Technology of Water Treatment,2022,48(1):23-28.
|
| 27 |
朱永秀,于水利,顾正阳,等. 金属有机框架复合物MOF在纳滤膜制备中的应用[C]//中国环境科学学会2021年科学技术年会——环境工程技术创新与应用分会场论文集(三). 天津:环境工程编辑部,2021:514-519.
|
|
ZHU Yongxiu, YU Shuili, GU Zhengyang,et al. Application of metal-organic framework in the preparation of nanofiltration membranes[C]// Chinese Society for Environmental Science and Technology Annual Conference 2021—Environmental Engineering Technology Innovation and Application Sub-conference Proceedings(Ⅲ). Tianjin:Editorial Department of Environmental Engineering,2021:514-519.
|
| 28 |
陈青柏,刘雨,赵津礼,等. 基于新型离子交换膜过程的含盐废水零排放技术[J]. 化学进展,2019,31(12):1669-1680. doi:10.7536/PC190414
|
|
CHEN Baichen, LIU Yu, ZHAO Jinli,et al. Emerging ion exchange membrane process-based zero liquid discharge technology for saline wastewater[J]. Progress in Chemistry,2019,31(12):1669-1680. doi:10.7536/PC190414
|
| 29 |
YANG Ye, SUN Yuzhu, SONG Xingfu,et al. Separation of mono- and di-valent ions from seawater reverse osmosis brine using selective electrodialysis[J]. Environmental Science and Pollution Research International,2021,28(15):18754-18767. doi:10.1007/s11356-020-10014-9
|
| 30 |
孙小寒,苏成龙,王建友. 离子选择性电渗析处理海水淡化浓海水[J]. 水处理技术,2015,41(11):86-91.
|
|
SUN Xiaohan, SU Chenglong, WANG Jianyou. Concentrated seawater treatment by ion-selective electrodialysis[J]. Technology of Water Treatment,2015,41(11):86-91.
|
| 31 |
李福勤,朱敏,张引弓,等. 单价选择性电渗析对高盐废水一/二价阴离子的分离[J]. 工业水处理,2021,41(9):56-59.
|
|
LI Fuqin, ZHU Min, ZHANG Yingong,et al. Separation of monovalent/divalent anions in high-salt wastewater by monovalent selective electrodialysis[J]. Industrial Water Treatment,2021,41(9):56-59.
|
| 32 |
CHEN Qingbai, WANG Jianyou, LIU Yu,et al. Sustainable disposal of seawater brine by novel hybrid electrodialysis system:Fine utilization of mixed salts[J]. Water Research,2021,201:117335. doi:10.1016/j.watres.2021.117335
|
| 33 |
CHEN Binglun, JIANG Chenxiao, WANG Yaoming,et al. Selectrodialysis with bipolar membrane for the reclamation of concentrated brine from RO plant[J]. Desalination,2018,442:8-15. doi:10.1016/j.desal.2018.04.031
|
| 34 |
KHALLA S A, SUSS M E. Desalination via chemical energy:An electrodialysis cell driven by spontaneous electrode reactions[J]. Desalination,2019,467:257-262. doi:10.1016/j.desal.2019.04.031
|
| 35 |
BIESHEUVEL P M, PORADA S, LEVI M,et al. Attractive forces in microporous carbon electrodes for capacitive deionization[J]. Journal of Solid State Electrochemistry,2014,18(5):1365-1376. doi:10.1007/s10008-014-2383-5
|
| 36 |
LEE J, KIM S, KIM C,et al. Hybrid capacitive deionization to enhance the desalination performance of capacitive techniques[J]. Energy Environmental Science,2014,7(11):3683-3689. doi:10.1039/c4ee02378a
|
| 37 |
CHEN Fuming, HUANG Yinxi, GUO Lu,et al. A dual-ion electrochemistry deionization system based on AgCl-Na0.44MnO2 electrodes[J]. Nanoscale,2017,9(28):10101-10108. doi:10.1039/c7nr01861d
|
| 38 |
常俊俊. 非对称型电容脱盐体系构建及强化离子去除研究[D]. 北京:中国科学院大学(中国科学院过程工程研究所),2020.
|
|
CHANG Junjun. Construction of asymmetric capacitive desalination system and its enhancement on ion removal[D]. Beijing:Institute of Process Engineering,Chinese Academy of Sciences,2020.
|
| 39 |
LI Qian, ZHENG Yun, XIAO Dengji,et al. Faradaic electrodes open a new era for capacitive deionization[J]. Advanced Science,2020,7(22):2002213. doi:10.1002/advs.202002213
|
| 40 |
WU Tingting, WANG Gang, WANG Shiyong,et al. Highly stable hybrid capacitive deionization with a MnO2 anode and a positively charged cathode[J]. Environmental Science & Technology Letters,2018,5(2):98-102. doi:10.1021/acs.estlett.7b00540
|
| 41 |
王庆天,高利平. 离子膜烧碱生产工艺的优化分析[C]//2020万知科学发展论坛论文集(智慧工程三). 西安:中国智慧工程研究会智能学习与创新研究工作委员会,2020:429-437.
|
|
WANG Qingtian, GAO Liping. Optimization and analysis of ionic membrane caustic soda production process[C]// Proceedings of the 2020 All-knowledge Science Development Forum(Smart Project Ⅲ). Xi’an:Working Committee on Intelligent Learning and Innovation Research of China Wisdom Engineering Association,2020:429-437.
|
| 42 |
颜海洋,汪耀明,蒋晨啸,等. 离子膜电渗析在高盐废水“零排放”中的应用、机遇与挑战[J]. 化工进展,2019,38(1):672-681.
|
|
YAN Haiyang, WANG Yaoming, JIANG Chenxiao,et al. Ion exchange membrane electrodialysis for high salinity wastewater “zero liquid discharge”:Applications,opportunities and challenges[J]. Chemical Industry and Engineering Progress,2019,38(1):672-681.
|
| 43 |
HUANG Chuanhui, XU Tongwen. Electrodialysis with bipolar membranes for sustainable development[J]. Environmental Science & Technology,2006,40(17):5233-5243. doi:10.1021/es060039p
|
| 44 |
XU Tongwen, HUANG Chuanhui. Electrodialysis-based separation technologies:A critical review[J]. AIChE Journal,2008,54(12):3147-3159. doi:10.1002/aic.11643
|
| 45 |
YE Wenyuan, HUANG Jie, LIN Jiuyang,et al. Environmental evaluation of bipolar membrane electrodialysis for NaOH production from wastewater:Conditioning NaOH as a CO2 absorbent[J]. Separation and Purification Technology,2015,144:206-214. doi:10.1016/j.seppur.2015.02.031
|
| 46 |
GHYSELBRECHT K, SILVA A, VAN DER BRUGGEN B,et al. Desalination feasibility study of an industrial NaCl stream by bipolar membrane electrodialysis[J]. Journal of Environmental Management,2014,140:69-75. doi:10.1016/j.jenvman.2014.03.009
|
| 47 |
SHEN Jiangnan, HUANG Jie, RUAN Huiming,et al. Techno-economic analysis of resource recovery of glyphosate liquor by membrane technology[J]. Desalination,2014,342:118-125. doi:10.1016/j.desal.2013.11.041
|
| 48 |
TRAN A T K, MONDAL P, LIN Jiuyang,et al. Simultaneous regeneration of inorganic acid and base from a metal washing step wastewater by bipolar membrane electrodialysis after pretreatment by crystallization in a fluidized pellet reactor[J]. Journal of Membrane Science,2015,473:118-127. doi:10.1016/j.memsci.2014.09.006
|
| 49 |
田雨,张宇峰,张文娟,等. 双极膜电渗析电解硫酸钠高盐废水资源化研究[J]. 天津城建大学学报,2020,26(4):284-289.
|
|
TIAN Yu, ZHANG Yufeng, ZHANG Wenjuan,et al. Utilization of sodium sulfate and high salinity wastewater by bipolar membrane electrodialysis electrolysis[J]. Journal of Tianjin Chengjian University,2020,26(4):284-289.
|
| 50 |
赵倩. 单膜电解-双极膜电渗析耦合工艺处理硫酸钠制备酸和碱的研究[D]. 上海:华东理工大学,2020.
|
|
ZHAO Qian. Preparation of acid and alkali from sodium sulfate by coupling process of single-membrane electrolysis and bipolar membrane electrodialysis[D]. Shanghai:East China University of Science and Technology,2020.
|
| 51 |
王百年,曹萌,陈烁,等. 硫酸钠两步转化法制备硫酸钾工艺条件研究[J]. 化肥工业,2017,44(2):53-60. doi:10.3969/j.issn.1006-7779.2017.02.018
|
|
WANG Bainian, CAO Meng, CHEN Shuo,et al. Study of process conditions for preparation of potassium sulfate with two-step conversion method of sodium sulfate[J]. Chemical Fertilizer Industry,2017,44(2):53-60. doi:10.3969/j.issn.1006-7779.2017.02.018
|
| 52 |
廖恩鑫,陈丽芳,张泽亚,等. 硫酸钠与氯化钾制备硫酸钾实验研究[J]. 无机盐工业,2020,52(10):106-109. doi:10.11962/1006-4990.2019-0562
|
|
LIAO Enxin, CHEN Lifang, ZHANG Zeya,et al. Experimental study on preparing potassium sulfate by sodium sulfate and potassium chloride[J]. Inorganic Chemicals Industry,2020,52(10):106-109. doi:10.11962/1006-4990.2019-0562
|
| 53 |
陈侠,白凤霞,史亚鹏,等. 煤化工高盐废水复分解法制备硫酸钾实验研究[J]. 无机盐工业,2019,51(6):57-61.
|
|
CHEN Xia, BAI Fengxia, SHI Yapeng,et al. Experimental research of preparation of potassium sulfate from high-salt wastewater in coal chemical industry by double decomposition method[J]. Inorganic Chemicals Industry,2019,51(6):57-61.
|
| 54 |
赵秀萍,荆小兵,苏刚. 超低灰纯煤还原硫酸钠一步法制备硫化钠研究[J]. 盐业与化工,2015,44(12):36-40.
|
|
ZHAO Xiuping, JING Xiaobing, SU Gang. One step preparation of sodium sulfide from reducing sodium sulfate by low ash ultra pure coal[J]. Journal of Salt and Chemical Industry,2015,44(12):36-40.
|
| 55 |
郭艳秋. 氢气还原元明粉制硫化钠的催化活性物质探究与粗产物提纯[D]. 呼和浩特:内蒙古大学,2018.
|
|
GUO Yanqiu. Catalytic active species and purification process investigation for preparation of sodium sulfide by hydrogen reduction of anhydrous sodium sulfate[D]. Hohhot:Inner Mongolia University,2018.
|
| 56 |
聂建瑞. 以废料硫化钡制备高浓度硫化钠溶液工艺研究[J]. 广东化工,2021,48(18):72-75. doi:10.3969/j.issn.1007-1865.2021.18.030
|
|
NIE Jianrui. Study on preparation of high concentration sodium sulfide solution from waste barium sulfide[J]. Guangdong Chemical Industry,2021,48(18):72-75. doi:10.3969/j.issn.1007-1865.2021.18.030
|
| 57 |
自桂芹,夏举佩,刘成龙. 煤矸石酸浸渣-硫酸钠碳热法制备水玻璃的实验研究[J]. 非金属矿,2015,38(1):55-58. doi:10.3969/j.issn.1000-8098.2015.01.017
|
|
ZI Guiqin, XIA Jupei, LIU Chenglong. Experimental study on the preparation water glass by carbothermic method using acid leaching slag of coal gangue and sodium sulfate[J]. Non-Metallic Mines,2015,38(1):55-58. doi:10.3969/j.issn.1000-8098.2015.01.017
|
| 58 |
刘成龙,许爱华,夏举佩,等. 煤矸石浸渣制备白炭黑工艺优化及性能分析[J]. 精细化工,2019,36(11):2177-2184.
|
|
LIU Chenglong, XU Aihua, XIA Jupei,et al. Process optimization and performance analysis for preparation of silica from coal gangue leaching residue[J]. Fine Chemicals,2019,36(11):2177-2184.
|
| 59 |
YANG Yang, GAO Xueli, FAN Aiyong,et al. An innovative beneficial reuse of seawater concentrate using bipolar membrane electrodialysis[J]. Journal of Membrane Science,2014,449:119-126. doi:10.1016/j.memsci.2013.07.066
|
| 60 |
夏敏,操容,叶春松,等. 双极膜电渗析技术在工业高含盐废水中的应用[J]. 化工进展,2018,37(7):2820-2829.
|
|
XIA Min, CAO Rong, YE Chunsong,et al. Application of bipolar membrane electrodialysis for industrial high-salinity brine valorization[J]. Chemical Industry and Engineering Progress,2018,37(7):2820-2829.
|
| 61 |
WANG Meng, WANG Kaikai, JIA Yuxiang,et al. The reclamation of brine generated from desalination process by bipolar membrane electrodialysis[J]. Journal of Membrane Science,2014,452:54-61. doi:10.1016/j.memsci.2013.10.029
|
| 62 |
陈辉霞,徐伟,陶莉,等. 高盐有机废水有价组分回收与水资源回用技术的探索与实践[J]. 科技导报,2021,39(17):32-38. doi:10.3981/j.issn.1000-7857.2021.17.004
|
|
CHEN Huixia, XU Wei, TAO Li,et al. Exploration and practice of valuable components recovery and water resource utilization technology of high salt organic wastewater[J]. Science & Technology Review,2021,39(17):32-38. doi:10.3981/j.issn.1000-7857.2021.17.004
|
| 63 |
陈赫然,陈天虎,汪家权. 一种利用工业废杂盐制备融雪剂的方法:CN111471432A[P]. 2020-07-31.
|