稀土冶炼废水治理研究进展
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- 英文论文题名:Development Status of Wastewater Treatment in Rare Earth Hydrometallurgy
- 论文作者:彭志强 ; 房丹 ; 洪玲
- 英文论文作者:PENG Zhi-qiang ; FANG Dan ; ZHANG Hong-min ; Zhong Tao-tao ; Meizhou city ; guangdong province quality supervision and testing of measurement
- 年:2016
- 作者机构:广东省梅州市质量计量监督检测所;
- 论文关键词:稀土 ; 废水 ; 氨氮 ; 氟
- 英文论文关键词:rare earth ; wastewater ; NH~(3-)N ; fluorine
- 会议召开时间:2016-09-06
- 会议录名称:2016全国稀土冶炼与环境保护技术交流会会刊
- 语种:中文
- 分类号:X758
- 学会代码:ZGXT
- 会议名称:2016全国稀土冶炼与环境保护技术交流会
- 会议地点:中国广西南宁
- 主办单位:中国稀土学会环境保护专业委员会、中国稀土学会化学和湿法冶金专业委员会、中国稀土学会火法冶金专业委员会
- 学会名称:中国稀土学会
- 页数:5
- 文件大小:384k
- 原文格式:O
- 会议级别:全国
摘要
本文通过对不同稀土冶炼废水的产生原因和组成成分进行分析,对稀土废水进行分类,阐述了各类废水的危害和国内外稀土冶炼废水主要处理技术及研究现状,重点介绍了中和法、吹脱法、折点加氯法、沉淀法和液膜法,并分析了各种方法的优劣。
The paper analyzes the causes and composition of the rare earth smelting wastewater,classify the rare earth wastwater,Expounds the harm of all kinds of wastewater and Describes the major technology and research status of rare earth smelting wastewater treatment abroad,Focuses on the neutralization method,air stripping,breakpoint chlorination,precipitation and liquid membrane.And analyzes the advantages and disadvantages of each method.
The paper analyzes the causes and composition of the rare earth smelting wastewater,classify the rare earth wastwater,Expounds the harm of all kinds of wastewater and Describes the major technology and research status of rare earth smelting wastewater treatment abroad,Focuses on the neutralization method,air stripping,breakpoint chlorination,precipitation and liquid membrane.And analyzes the advantages and disadvantages of each method.
引文
[1]刘余九.中国稀土产业现状及发展的主要任务[J].中国稀土学报,2007,25(3):257-263
[2]朱冬梅,方夕辉,邱廷省,朱华磊.稀土冶炼氨氮废水的处理技术现状[J].有色金属科学与工程,201 3,4(2):90-95
[3]王春梅,张永奇,黄小卫,龙志奇.稀土冶炼废水处理技术发展现状[J].有色冶金节能2012(1):11-15
[4]杜长顺,李梅,柳召刚,常宏涛,胡艳宏.包头稀土精矿处理现状及建议[J].湿法冶金,2010,29(1):1-4
[5]雷绍民,郭振华.氟污染的危害及含氟废水处理技术研究进展[J].金属矿山,2012(430):152-159
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[8]韩静.高浓度氨氮废水的危害及主要治理技术[J].北方环境,2011,23(12):120-122
[9]冯杰.水体中氨氮危害及污染治理技术[J].科技研究,2014(4):345
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[12]周钰明,余春香.吸附法处理含氟废水的研究进展[J].离子交换与吸附,2001,17(5),369-376
[13]张希祥,王煤,段德智.氧化钙粉末处理高浓度含氟废水的实验研究[J].四川大学学报(工程科学版),2001,33(6):111-113
[14]Geethamani C K,Ramesh S T,Gandhimathi R,et al.Fluoride sorption by treated fly ash:kinetic and isotherm studies[J].Journal of Material Cycles and Waste Management,2013,15(3):381-392.
[15]Roy S,Dass G.Fluoride contamination in drinking water-a review[J].J Resour Environ,2013,3:53-58.
[16]许延辉,段丽萍.稀土湿法冶金废水处理[J].工业用水与废水,2004,35(2):13-15
[17]Fuat Ozyonar,Bunyamin Karagozoglu,Mehmet Kobya.AIR STRIPPING OF AMMONIA FROM COKE WASTEWATER[J].Engineering Science&Technology,2012,15(2):85-91
[18]陈莉荣,戴宝成,武文斐,郑坤灿.高浓度氨氮稀土废水的吹脱试验研究[J].化工技术与开发,2007,36(9):38-40
[19]刘文龙,钱仁渊,包宗宏.吹脱法处理高浓度氨氮废水[J].南京工业大学学报:自然科学版,2008,30(4):56-59.
[20]Minato J,Kim Y J,Yamada H,et al.Alkali-Hydrothermal Modification of Air-Classified Korean Natural Zeolite and Their Ammonium Adsorption Behaviors[J].Separation science and technology,2004,39(16):3739-3751.
[21]董进忠,王利平,魏详瑞.沸石处理稀土生产中氨氮废水的实验研究[J].稀土,2003,24(4):57-59
[22]李忠,符瞰,夏启斌.改性天然沸石的制备及对氨氮的吸附[J].华南理工大学学报(自然科学版),2007,35(4):6-10
[23]江喆,宁平,普红平,邓春玲.稀土吸附剂的制备及去除水中氨氮的研究[J].武汉理工大学学报,2004,26(6):18-20,28
[24]M.Z.Othman,S.Uludag-Demirer and G.N.Demirer.Enhanced Nutrients Removal in Conventional Anaerobic Digestion Processes[J].International Journal of Civil and Environmental Engineering,2010,2(4):203-209
[25]许延辉,胡卫红,徐海平.利用稀土冶炼氨氮废水制备磷酸铵镁的研究[J].稀土,2006,27(6):55-58
[26]刘金良,黄小卫,龙志奇,于瀛,刘向生.磷酸铵镁法回收稀土分离废水中镁及氨氮的研究[J].中国稀土学报,2010,28(1):48-52
[27]霍守亮,席北斗,刘鸿亮,宋永会,何连生.磷酸铵镁沉淀法去除与回收废水中氮磷的应用研究进展[J].化工进展,2007,26(3):371-375
[28]Jeong G,Jung J H,Lim J H,et at.A Computational Mechanistic Study of Breakpoint Chlorination for the Removal of Ammonia Nitrogen from Water[J].Journal of chemical engineering of Japan,2014,47(3):225-229.
[29]黄海明,肖贤明,晏波.折点氯化处理低浓度氨氮废水[J].水处理技术,2008,34(8):63-65,78
[30]白雁冰.折点加氯法脱氨氮后余氯的脱除[J].环境科学与管理.2008,33(11):102-108
[31]苏俊霖,蒲晓林.乳状液膜分离技术及其在废水处理中的应用[J].日用化学工业,2008,38(8):1 82-1 84
[32]Lauterbock B,Ortner M,Haider R,et al.Counteracting ammonia inhibition in anaerobic digestion by removal with a hollow fiber membrane contactor[J].Water research,2012,46(15):4861-4869.
[33]李可彬,金士道.液膜法处理氨氮废水的动力学过程与工艺条件[J].环境科学学报,1996,16(4):412-417
[34]胡亚芹,吴礼光,叶向群,吴春金,薛德明.稀土废水中氯化铵浓缩的预处理工艺[J].水处理技术,2005,31(7):61-62
[2]朱冬梅,方夕辉,邱廷省,朱华磊.稀土冶炼氨氮废水的处理技术现状[J].有色金属科学与工程,201 3,4(2):90-95
[3]王春梅,张永奇,黄小卫,龙志奇.稀土冶炼废水处理技术发展现状[J].有色冶金节能2012(1):11-15
[4]杜长顺,李梅,柳召刚,常宏涛,胡艳宏.包头稀土精矿处理现状及建议[J].湿法冶金,2010,29(1):1-4
[5]雷绍民,郭振华.氟污染的危害及含氟废水处理技术研究进展[J].金属矿山,2012(430):152-159
[6]Sierant M L,Bartlett J D.Stress Response Pathways in Ameloblasts:Implications for Amelogenesis and Dental Fluorosis[J].Cells,2012,1(3):631-645.
[7]Ding Y,Sun H,Han H,et al.The relationships between low levels of urine fluoride on children's intelligence,dental fluorosis in endemic fluorosis areas in Hulunbuir,Inner Mongolia,China[J].Journal of hazardous materials,2011,186(2):1942-1946.
[8]韩静.高浓度氨氮废水的危害及主要治理技术[J].北方环境,2011,23(12):120-122
[9]冯杰.水体中氨氮危害及污染治理技术[J].科技研究,2014(4):345
[10]邱廷省,房艳霞,尹艳芬,刘庆生.稀土冶炼废水处理技术现状及发展[D].2007年中国稀土资源综合利用与环境保护研讨会论文集:142-146
[11]蔡英茂.稀土生产废水治理方案概述[J].稀土,2001,22(5):76-78
[12]周钰明,余春香.吸附法处理含氟废水的研究进展[J].离子交换与吸附,2001,17(5),369-376
[13]张希祥,王煤,段德智.氧化钙粉末处理高浓度含氟废水的实验研究[J].四川大学学报(工程科学版),2001,33(6):111-113
[14]Geethamani C K,Ramesh S T,Gandhimathi R,et al.Fluoride sorption by treated fly ash:kinetic and isotherm studies[J].Journal of Material Cycles and Waste Management,2013,15(3):381-392.
[15]Roy S,Dass G.Fluoride contamination in drinking water-a review[J].J Resour Environ,2013,3:53-58.
[16]许延辉,段丽萍.稀土湿法冶金废水处理[J].工业用水与废水,2004,35(2):13-15
[17]Fuat Ozyonar,Bunyamin Karagozoglu,Mehmet Kobya.AIR STRIPPING OF AMMONIA FROM COKE WASTEWATER[J].Engineering Science&Technology,2012,15(2):85-91
[18]陈莉荣,戴宝成,武文斐,郑坤灿.高浓度氨氮稀土废水的吹脱试验研究[J].化工技术与开发,2007,36(9):38-40
[19]刘文龙,钱仁渊,包宗宏.吹脱法处理高浓度氨氮废水[J].南京工业大学学报:自然科学版,2008,30(4):56-59.
[20]Minato J,Kim Y J,Yamada H,et al.Alkali-Hydrothermal Modification of Air-Classified Korean Natural Zeolite and Their Ammonium Adsorption Behaviors[J].Separation science and technology,2004,39(16):3739-3751.
[21]董进忠,王利平,魏详瑞.沸石处理稀土生产中氨氮废水的实验研究[J].稀土,2003,24(4):57-59
[22]李忠,符瞰,夏启斌.改性天然沸石的制备及对氨氮的吸附[J].华南理工大学学报(自然科学版),2007,35(4):6-10
[23]江喆,宁平,普红平,邓春玲.稀土吸附剂的制备及去除水中氨氮的研究[J].武汉理工大学学报,2004,26(6):18-20,28
[24]M.Z.Othman,S.Uludag-Demirer and G.N.Demirer.Enhanced Nutrients Removal in Conventional Anaerobic Digestion Processes[J].International Journal of Civil and Environmental Engineering,2010,2(4):203-209
[25]许延辉,胡卫红,徐海平.利用稀土冶炼氨氮废水制备磷酸铵镁的研究[J].稀土,2006,27(6):55-58
[26]刘金良,黄小卫,龙志奇,于瀛,刘向生.磷酸铵镁法回收稀土分离废水中镁及氨氮的研究[J].中国稀土学报,2010,28(1):48-52
[27]霍守亮,席北斗,刘鸿亮,宋永会,何连生.磷酸铵镁沉淀法去除与回收废水中氮磷的应用研究进展[J].化工进展,2007,26(3):371-375
[28]Jeong G,Jung J H,Lim J H,et at.A Computational Mechanistic Study of Breakpoint Chlorination for the Removal of Ammonia Nitrogen from Water[J].Journal of chemical engineering of Japan,2014,47(3):225-229.
[29]黄海明,肖贤明,晏波.折点氯化处理低浓度氨氮废水[J].水处理技术,2008,34(8):63-65,78
[30]白雁冰.折点加氯法脱氨氮后余氯的脱除[J].环境科学与管理.2008,33(11):102-108
[31]苏俊霖,蒲晓林.乳状液膜分离技术及其在废水处理中的应用[J].日用化学工业,2008,38(8):1 82-1 84
[32]Lauterbock B,Ortner M,Haider R,et al.Counteracting ammonia inhibition in anaerobic digestion by removal with a hollow fiber membrane contactor[J].Water research,2012,46(15):4861-4869.
[33]李可彬,金士道.液膜法处理氨氮废水的动力学过程与工艺条件[J].环境科学学报,1996,16(4):412-417
[34]胡亚芹,吴礼光,叶向群,吴春金,薛德明.稀土废水中氯化铵浓缩的预处理工艺[J].水处理技术,2005,31(7):61-62