Heavy metals in water bodies purified by suspended substrate of rivers 被引量：3

Heavy metals in water bodies purified by suspended substrate of rivers

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摘要 The equations, which are used to describe the relationships of adsorption quantity (s) , adsorption percent (P \-a), aqueous equilibrium concentration (c) of heavy metal on river suspended substrates and the ratio of adsorbent to water( j ), are developed when heavy metal adsorption on river suspended substrate satisfies with linear adsorption equation. The results, according to the simulation from heavy metal adsorption on suspended substrates of several main Chinese rivers from a previous research report, indicated that these developed equations could describe the linear adsorption processes in practice very well, meanwhile, the adsorption equilibrium constant of adsorbent for heavy metal was an intensity factor regardless of ratio of suspended substrates to water but strongly depended on media's pH. Furthermore, the suspended substrates of Yellow River gave stronger purification ability for Pb than for Cd and Cu. When Cd was purified by different river suspended substrates, it exhibited that the order of their purification ability for Cd was that of Songhuajiang River> Zhujiang Pearl River> Yellow River, which was consistent with their contents of cation exchange capacity(CEC). In addition, we estimated and compared the purification ability of river suspended substrates for cadmium, and the resulting purification percent was 37 64%, 64 58% and 50 98% for Songhuajiang River, Yangtze River and Zhujiang River, respectively. The equations, which are used to describe the relationships of adsorption quantity (s) , adsorption percent (P \-a), aqueous equilibrium concentration (c) of heavy metal on river suspended substrates and the ratio of adsorbent to water( j ), are developed when heavy metal adsorption on river suspended substrate satisfies with linear adsorption equation. The results, according to the simulation from heavy metal adsorption on suspended substrates of several main Chinese rivers from a previous research report, indicated that these developed equations could describe the linear adsorption processes in practice very well, meanwhile, the adsorption equilibrium constant of adsorbent for heavy metal was an intensity factor regardless of ratio of suspended substrates to water but strongly depended on media's pH. Furthermore, the suspended substrates of Yellow River gave stronger purification ability for Pb than for Cd and Cu. When Cd was purified by different river suspended substrates, it exhibited that the order of their purification ability for Cd was that of Songhuajiang River> Zhujiang Pearl River> Yellow River, which was consistent with their contents of cation exchange capacity(CEC). In addition, we estimated and compared the purification ability of river suspended substrates for cadmium, and the resulting purification percent was 37 64%, 64 58% and 50 98% for Songhuajiang River, Yangtze River and Zhujiang River, respectively.

作者 ZhouDM ChenHM

机构地区 LaboratoryofSoilChemistryandEnvironmentalProtection（LSCEP） LaboratoryofSoilChemistryandEnvironmentalProtec

出处《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2002年第1期44-48,共5页 环境科学学报（英文版）

基金 TheNationalNaturalScienceFoundationofChina (No .2 98770 2 7)andthepostdoctoralScienceFoundationofChina

关键词 heavy metal suspended substrate PURIFICATION heavy metal suspended substrate purification

分类号 X703 [环境科学与工程—环境工程]

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参考文献11

1Allen H E, Chen Y T, Li Y et al., 1995. Soil partition coefficients for Cd by column desorption and comparison to batch adsorption measurements[J], Environ Sci Technol, 29: 1887-1891.
2Chen H M, Zheng C R, 1995. Evaluation of purification ability of suspended substance with logκs for heavy metal in water bodies[J], Acta Pedologica Sinica, 32: 86-92(Supplement).
3Fang Y Y, 1988. Handbook on water resources protection[M]. Nanjing: Hehai University Press. 41.
4Gao G S, Chen J S, 1983. Adsorption of Cd2+ on suspended substrates of river in China[J], J of Environ Chem, 2(4):28-39.
5Gardiner J, 1974. The chemistry of cadmium in natural water II. The adsorption of cadmium on river muds and naturally occurring solids[J], Water Res, 8: 157-164.
6Huang C P, Elliott M A, Ashmead R M, 1977. Interfacial reactions and the fate of heavy metals in soil-water systems[J]. J Water Pollution Control Federation, 49(5):745-756.
7Institute of Soil Science, Chinese Academy of Sciences, 1978. Physical and chemical analysis of soil[M]. Shanghai: Sci. & Technol Press. 132; 170.
8Jin X C, Wang G L, 1984. Mud effects of heavy metal adsorption[J], J of Environ Sci & Technol, 21:23-32.
9Tissier A, Carignan R, Dubreuil B, Rapin F, 1989. Partitioning of zinc between the water column and the toxic sediments in lakes[J], Geochimica et Cosmochimica Acta, 53: 1511-1522.
10Wang X Y, Zhang H Z, Zhou A H et al., 1983. Adsorption of heavy metals on solid particles of Jinsha River[J], J of Environ Chem, 2(1): 23-32.

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1王文正,张经.欧洲罗纳河和中国几条主要河流悬浮物的矿物学组成分析[J].海洋与湖沼,1994,25(3):319-327. 被引量：9
2董德明,路永正,李鱼,李海龙.吉林省部分河流与湖泊表层沉积物中重金属的分布规律[J].吉林大学学报（地球科学版）,2005,35(1):91-96. 被引量：20
3王中波,杨守业,李萍,李从先,蔡进功.长江水系沉积物碎屑矿物组成及其示踪意义[J].沉积学报,2006,24(4):570-578. 被引量：85
4苏伟,刘景双,李方.第二松花江干流重金属污染物健康风险评价[J].农业环境科学学报,2006,25(6):1611-1615. 被引量：40
5刘文,徐士进,杨杰东,吴卫华,陆现彩,尹宏伟.金沙江河流悬浮物与沉积物的矿物学特征及其表生地球化学意义[J].矿物岩石地球化学通报,2007,26(2):164-169. 被引量：10
6Woitke P,Wellmitz J,Helm D,et al.Analysis and assessment of heavy metal pollution in suspended solids and sediments of the river Danube[J].Chemosphere,2003,51(8):633-642.
7王稔华王书海王起超.第二松花江汞的污染与迁移过程历史分析.地理科学,1986,6(3):229-240.
8戚长谋.地球化学通论[M].北京:地质出版社,1994.75.
9陈宗团,徐立,洪华生.河口沉积物-水界面重金属生物地球化学研究进展[J].地球科学进展,1997,12(5):434-439. 被引量：29
10陆继龙,郝立波,赵玉岩,白荣杰,孙素梅,房忱忱.第二松花江中下游水体重金属特征及潜在生态风险[J].环境科学与技术,2009,32(5):168-172. 被引量：35

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1李仁英,杨浩.Cd和Zn在滇池沉积物中的吸附-解吸特征[J].土壤,2007,39(2):274-278. 被引量：12
2郝立波,孙立吉,陆继龙,孙淑梅,潘志恒,赵玉岩.第二松花江中上游悬浮物重金属元素分布特征[J].吉林大学学报（地球科学版）,2010,40(2):327-330. 被引量：15
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2马陶武,周科,朱程,刘佳,王子健.铜锈环棱螺对镉污染沉积物慢性胁迫的生物标志物响应[J].环境科学学报,2009,29(8):1750-1756. 被引量：27
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4杨威,刘丹,王晓燕,姜黎明,李圭白,任南琪.pH和腐殖酸对水合二氧化锰去除水中铅的影响[J].黑龙江大学自然科学学报,2010,27(6):735-738. 被引量：3
5赵玉岩,陆继龙,郝立波,孙立吉.松花湖沉积物Cd和Hg污染风险灰色预测[J].深圳大学学报（理工版）,2011,28(4):368-372.
6华玉妹,杨长明,朱端卫,张金林.逐级分离沉积物锌吸附特性受菹草影响的研究[J].环境科学与技术,2011,34(10):10-13.
7耿雅妮.河流重金属污染研究进展[J].中国农学通报,2012,28(11):262-265. 被引量：40
8马秀巧,姜霞,王书航,王雯雯,王秋娟.高升桥水库沉积物重金属的生态风险评价[J].三峡环境与生态,2012,34(3):45-51. 被引量：2
9于童,徐绍辉,林青.不同初始氧化还原条件下土壤中重金属的运移研究Ⅰ.单一Cd、Cu、Zn的土柱实验[J].土壤学报,2012,49(4):688-697. 被引量：22
10陈兴仁.安徽长江主要支流悬浮物重金属元素分布特征及其指示意义[J].合肥工业大学学报（自然科学版）,2012,35(7):977-980. 被引量：5

1温琰茂,程国佩.PROBLEMS　OF　THE　AQUATIC　ENVIRONMENT　AND　COUNTERMEASURES　IN　RAPID　ECONOMIC　DEVELOPMENT　IN　THE　ZHUJIANG　RIVER　DELTA[J].Chinese Geographical Science,1995,5(1):39-43.
2SONG Xingyu,HUANG Liangmin,ZHANG Jianlin,YIN Kedong,LIU Sheng,TAN Yehui,YIN Jianqiang.Chemometric study of spatial variations of environmental and ecological characteristics in the Zhujiang River (Pearl River) Estuary and adjacent waters[J].Acta Oceanologica Sinica,2011,30(4):60-74. 被引量：6
3Hee-Jeong Choi,Chul-Ho Choi,Seung-Mok Lee,Diwakar Tiwari.Influence of the wastewater composition on denitrification and biological P-removal in the S-DN-P process: (c) Dissolved and undissolved substrates[J].Journal of Environmental Sciences,2009,21(8):1074-1079.
4The environmental and hydrogeologic problems in Xiuwu region on the north bank of Yellow river[J].Global Geology,1998,3(1):4-5.
5BAI Peng,GU Yanzhen,LI Peiliang,WU Kejian.Tidal energy budget in the Zhujiang(Pearl River) Estuary[J].Acta Oceanologica Sinica,2016,35(5):54-65.
6LIU Runqi,WANG Yaping,GAO Jianhua,WU Ziyin,GUAN Weibing.Turbidity maximum formation and its seasonal variations in the Zhujiang(Pearl River)Estuary,southern China[J].Acta Oceanologica Sinica,2016,35(8):22-31. 被引量：7
7China releases fish into Yangtze River to replenish ecosystem[J].China's Foreign Trade,2009(7):9-9.
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9Feng Ting Li Hong Yang Yan Zhao Ran Xu.Novel modified pectin for heavy metal adsorption[J].Chinese Chemical Letters,2007,18(3):325-328. 被引量：16
10Fishing Ban on the Whole Yangtze River[J].China Today,2003,52(6):6-6.

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Heavy metals in water bodies purified by suspended substrate of rivers 被引量：3

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