|本期目录/Table of Contents|

[1]廖家隆,张喆秋,陈丽杰,等.含砷废水处理研究进展[J].有色金属科学与工程,2018,(01):86-91.[doi:10.13264/j.cnki.ysjskx.2018.01.015]
 LIAO Jialong,ZHANG Zheqiu,CHEN Lijie,et al.Research progress of arsenic-containing wastewater treatment[J].,2018,(01):86-91.[doi:10.13264/j.cnki.ysjskx.2018.01.015]
点击复制

含砷废水处理研究进展(/HTML)
分享到:

《有色金属科学与工程》[ISSN:1674-9669/CN:36-1311/TF]

卷:
期数:
2018年01期
页码:
86-91
栏目:
出版日期:
2018-01-30

文章信息/Info

Title:
Research progress of arsenic-containing wastewater treatment
作者:
廖家隆张喆秋陈丽杰徐志峰
江西理工大学冶金与化学工程学院,江西 赣州 341000
Author(s):
LIAO Jialong ZHANG Zheqiu CHEN Lijie XU Zhifeng
School of Metallurgical and Chemical Engineering, Jiangxi University of Science and Technology, Ganzhou 341000, China
关键词:
环境污染含砷废水吸附法生物法
分类号:
TF111.3;X756
DOI:
10.13264/j.cnki.ysjskx.2018.01.015
文献标志码:
A
摘要:
在环境污染中,砷是最常见、危害最严重的物质之一,其对水资源的污染是一个全球性环境问题,严重威胁着人类健康,含砷废水的处理一直受到人们的广泛关注. 文中总结了近年来含砷废水主要处理方法的原理、特点和应用现状,对吸附法和生物法进行了重点阐述,分析了它们的优势与共性,以期在实际处理过程中提供技术支持和帮助.

参考文献/References:

[1] FENDORF S,MICHAEL H A,VAN G A.Spatial and temporal variations of groundwater arsenic in South and Southeast Asia[J].Science,2010,328(5982):1123.
[2] 肖细元,陈同斌,廖晓勇,等.中国主要含砷矿产资源的区域分布与砷污染问题[J].地理研究,2008,27(1):201-212.
[3] 廖国权,李华.土壤砷污染的淋洗修复研究进展[J].图书情报导刊,2011,21(34):172-174.
[4] SONG S, LOPEZ-VALDIVIESO A, HERNANDEZ-CAMPOS D J,et al. Arsenic removal from high-arsenic water by enhanced coagulation with ferric ions and coarse calcite[J]. Water Research,2006,40(2):364-372.
[5] 刘辉利,朱义年.CO2对砷酸钙稳定性影响的热力学分析[J].环境保护科学,2006,32(3):7-9.
[6] ROBINS R G.The solubility of metal arsenates[J].Metallurgical Transactions B,1981,12(1):103-109.
[7] 陈云.硫化法从砷滤饼中分离砷的试验研究[J].湿法冶金,2009,28(4):233-235.
[8] 应国民,阴树标,陈雯,等.两段石灰中和—洗涤—絮凝沉淀法脱除污酸中砷的研究[J].矿冶,2017,26(2):71-76.
[9] 王德峰,彭先佳,张卫民,等.硫化氢净化强酸性高砷废液[J].环境化学,2015,34(12):2233-2238.
[10] 王世阳,徐环昕,宁方红,等.新型载锆树脂除As(V)的研究[J].离子交换与吸附,2015(4):347-358.
[11] OCHROMOWICZ K,CHMIELEWSKI T.Solvent extraction in hydrometallurgical processing of polish copper concentrates[J].Physicochemical Problems of Mineral Processing,2011,46(46):207-218.
[12] IBERHAN L,WI■NIEWSKI M.Removal of arsenic(III) and arsenic(V) from sulfuric acid solution by liquid-liquid extraction[J]. Journal of Chemical Technology & Biotechnology,2010,78(6):659-665.
[13] IBERHAN L,WI■NIEWSKI M.Extraction of arsenic(III) and arsenic(V) with Cyanex 925, Cyanex 301 and their mixtures[J].Hydrometallurgy,2002,63(1):23-30.
[14] 丁爱中,陈海英,程莉蓉,等.地下水除砷技术的研究进展[J].安徽农业科学,2008,36(27):11979-11982.
[15] 邹路易,毛小庆,李磊,等.巯基壳聚糖/活性炭复合功能膜的砷吸附性能研究[J].安全与环境学报,2013,13(6):31-33.
[16] 席北斗,王晓伟,霍守亮,等.纳滤膜技术在地下水除砷应用中的研究进展[J].环境工程学报,2012,6(2):353-360.
[17] PILLEWAN P,MUKHERJEE S,MEHER A K,et al.Removal of arsenic (III) and arsenic (V) using copper exchange zeolite-a[J]. Environmental Progress & Sustainable Energy,2015,33(4):1274-1282.
[18] 曹秉帝,徐绪筝,王东升,等.三价铁改性活性炭对水中微量砷的吸附特性[J]. 环境工程学报,2016,10(5):2321-2328.
[19] HUANG Y B,WANG L L,TU S X, et al.Influence of various factors on arsenic removal using ferruginous manganese ore[J]. Applied Mechanics & Materials,2011,71/78:2753-2758.
[20] AHMAD H B,AZHAR M,HUSSAIN M,et al.Synthesis and characterization of kaolin supported metallic nanocomposites for the removal of arsenic[J]. Fresenius Environmental Bulletin,2015,24(11):4019-4024.
[21] 钟松雄,尹光彩,何宏飞,等.不同铁矿物对水稻土砷的稳定化效果及机制[J].环境科学学报,2017,37(5):1931-1938.
[22] 赵雅光,万俊锋,王杰,等.零价铁(ZVI)去除水中的As(Ⅲ)[J].化工学报,2015,66(2):730-737.
[23] 卞战强,谢莉,田向红,等.三种晶型纳米二氧化锰对水中As(Ⅲ)和As(Ⅴ)的吸附性能研究[J].环境与健康杂志,2012, 29(7):645-648.
[24] 王文凯,阎莉,段晋明,等.二氧化钛滤柱对高砷污酸废水的吸附去除[J].环境工程学报,2017,11(3):1322-1328.
[25] 姜海钰,荆玉姝,高莹,等.活性氧化铝吸附水中砷的动态试验研究[J].青岛理工大学学报,2014,35(2):53-58.
[26] 王琼,胡健,黄亚许,等.粉煤灰及其改性材料对废水中砷离子的吸附研究[J].矿冶,2015,24(1):74-76.
[27] YANG L.Simultaneous removal of fluoride and arsenic from aqueous solution using activated red mud[J].Separation Science & Technology,2014,49(15):2412-2425.
[28] 杨长明,陈氏秋张,沈烁.钢渣对水溶液中砷的吸附动力学和热力学特性试验[J].净水技术,2015(2):83-89.
[29] NELSON P O,CHUNG A K,HUDSON M C.Factors affecting the fate of heavy metals in the activated sludge process[J]. Journal,1981,53(8):1323-1333.
[30] CHENG M H,PATTERSON J W,MINEAR R A.Heavy metals uptake by activated sludge[J].Journal,1975,47(2):362-376.
[31] NEUFELD R D,HERMANN E R.Heavy metal removal by acclimated activated sludge[J].J Water Pollut Control Fed,1975, 47(2):310-329.
[32] 王岩,刘奉滨,郎龙麒,等.三价砷对SBRs反应系统中活性污泥的影响研究[J].郑州大学学报(工学版),2013,34(5):109-112.
[33] AGRAFIOTI E,KALDERIS D,DIAMADOPOULOS E. Arsenic and chromium removal from water using biochars derived from rice husk, organic solid wastes and sewage sludge.[J]. Journal of Environmental Management, 2014, 133(133):309.
[34] ANDERSON C R,COOK G M.Isolation and characterization of arsenate-reducing bacteria from arsenic-contaminated sites in New Zealand[J].Current Microbiology,2004,48(5):341-7.
[35] 许平平, 刘聪, 王亚,等.共生细菌对盐生小球藻富集和转化砷酸盐的影响[J].环境科学,2016, 37(9):3438-3446.
[36] 王亚,张春华,王淑,等.带菌盐藻对不同形态砷的富集和转化研究[J].环境科学,2013,34(11):4257-4265.
[37] 朱时佳,花修艺,郭志勇,等.铜、铬、铅和砷对自然水体生物膜吸附五氯酚的影响[J].科学技术与工程,2015,15(18):10-15.
[38] ANDJELKOVIC I,AZARI S,ERKELENS M, et al.Bacterial iron-oxide nanowires from biofilm waste as a new adsorbent for the removal of arsenic from water[J]. Rsc Advances,2017,7(7):3941-3948.
[39] 潘思宇,夏四清,王晨辉,等.利用氢基质生物膜反应器去除水中砷酸盐[J].环境科学学报,2015,35(12):3781-3788.
[40] POON L,YOUNUS S,WILSON L D.Adsorption study of an organo-arsenical with chitosan-based sorbents[J]. Journal of Colloid & Interface Science,2014,420(8):136-144.
[41] 李雅轩,陈梅青,王瑜瑜,等.铁锰氧化物/醋酸纤维素复合材料制备及除砷性能研究[C]//中国环境科学学会2013年学术年会. 北京:中国环境科学学会,2013.
[42] HAN Y H,FU J W,CHEN Y,et al.Arsenic uptake, arsenite efflux and plant growth in hyperaccumulator Pteris vittata: Role of arsenic-resistant bacteria.[J].Chemosphere,2016,144:1937-1942.
[43] PODDER M S,MAJUMDER C B.Characterization and modelling of biosorptive performance of living cells of Bacillus arsenicus,MTCC 4380 for the removal of As(III) and As(V)[J].Journal of Water Process Engineering,2016(9):135-154.

相似文献/References:

[1]陈少武.含砷废酸真空蒸发系统的设计与应用实践[J].有色金属科学与工程,2002,(02):22.
 CHENG Shao-wu.The Design and Application of Vacuum Evaporation System for As-Bearing Waste Water[J].,2002,(01):22.
[2]刘政,姚媛.高砷钴矿火法富集过程中砷的污染和治理[J].有色金属科学与工程,2002,(04):38.
 LIU Zheng,YAO Yuan.The Pollution and Treatment of As in Fire Concentrate with High Smaltite[J].,2002,(01):38.
[3]廖列法a,毛克贞b.我国稀土产业环境监管策略研究:国外环境监管政策的启示[J].有色金属科学与工程,2013,(01):89.
 LIAO Lie-faa,MAO Ke-zhenb.The environmental regulation strategies in China’s rare earth industry: Enlightenment from the foreign environmental regulation policy[J].,2013,(01):89.
[4]肖祥鸿.西华山钨矿应用SQC-2-1100型湿式强磁场磁选机效果显著[J].有色金属科学与工程,1988,(03):33.
[5]廖列法 毛克贞.我国稀土产业环境监管策略研究:国外环境监管政策的启示[J].有色金属科学与工程,2016,(05预):1470.
 Liefa Liao kezhen mao.The environmental regulation strategy in Chinas rare earth industry: Enlightment from the foreign environmental regulation policy[J].,2016,(01):1470.

备注/Memo

备注/Memo:
收稿日期:2017-11-05
基金项目:国家自然科学基金资助项目(5176401);江西省高等学校科技落地计划项目(KJLD13046);江西理工大学博士科研启动基金资助项目(jxxjbs17045)
通信作者:徐志峰(1973- ),男,博士,教授,主要从事湿法冶金与有色金属资源循环利用研究,E-mail:xzf_1@163.com.
更新日期/Last Update: 2018-01-30