OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

华东政法大学学报 1990

天然水体中悬浮颗粒物电泳性质的研究——Ⅰ.离子强度及pH对悬浮颗粒物电泳淌度的影响

, PP. 31-37

王保栋,张正斌,刘莲生,郑士淮

Full-Text Cite this paper Add to My Lib

Abstract:

本文采用天然悬浮物力最常见的粘土(包括高岭石、伊利石、蒙脱石)和水合氧化物(包括α-FeOOH、γ-AlOOH)为模拟颗粒物,系统地研究了介质的离子强度,得到了比较完整的关系曲线.实验结果表明,不管颗粒物带何种电荷,当介质的离子强度介于10-4-4×10-2mol/l之间时,随着离子强度的增大,悬浮颗粒物电泳淌度的绝对值也随着增大,这基本上可用Zukoski等的Stern层动力学模型来解释.当介质离子强度大于4×102mol/l时,电泳淌度的绝对值反之随着离子强度的增大而减少,这可用双电层厚度变薄来解释.在电泳淌度与介质pH关系研究中,测得一种新型的M-pH曲线,这可解释对界面羟基的两性变化和离子强度效应“反常”之故.

References

[1]	1 Stumm,W.and J.J.Morgan,Aquatic Chernislry,2nd Edition,Wiley,New York,1981.
[2]	2 汤鸿霄,胶体与界面化学,安徽大学学报(自然科学版)(胶体与界面化学专辑),1987,13-24.
[3]	3 张正斌等,海洋化学(上),上海科学技术出版社,1984,8.
[4]	4 Pravdic,V.,Surface charge characterization of sea sediments,Limnol Oceanogr.,15(1970),230-233.
[5]	5 Neihof,R.A.a nd G.I.Loeb,The surface change of particulate matter in seawater,Limnol.Oceanogr.,17(1972),1:7-16.
[6]	6 Nei hof,R.A.and G.I.Loed,Dissolved organic matter in seawater and the electric charge of immersed surfaces,J.Mar.Res.,32(1974),5-12.
[7]	7 Hunter,K.A.a nd P.S.Liss,The surface charge of suspended particles in estuarine and coastal waters,Nature,282(1979),823-825.
[8]	8 Hunter,K.A.,Microelectrophoretic properties of natural surface-active organic matter in coastal seawater,Limnol.Oreanogr.,25(1980),5:807-822.
[9]	9 Loder,T,C.and P.S.Liss,Control by organic coatings of the surface charge of estuarine suspended particles,Limnol.Oceanogr.30(1985),2,:418-421.
[10]	10 Ottewill,R.H.and L.R.Holloway,Electrokinetic properties of particles,in "The Nature of Seawater"(edited by E.D,Goldberg),Dahlem konferenzen,1975,510.
[11]	11 张正斌、刘莲生著,海洋物理化学,科学出版社,北京,1989,811.
[12]	12 Zukos ki,C.F.and D.A.Saville,The interpretation of electrokinetic measurements using a dynamic model of the stern layer Ⅰ,the dynamic model,Ⅱ:comparisons between theory and experiment,J.Colloid Inrerjace Sci.,114,(1986),1:32-35.
[13]	13 Zukoski,C.F.and D.A.Saville,An experimental test of electrokinetic theory using measurements of e1ectrphoretic mobility and electrical conductivity,J.Colloid Intrrface Sci.,107(1985),2:322-333.
[14]	14 Parks,G.A.,Adsorption in the marine environment,in Chemical Oceanagraphy(2nd edition),Vol Ⅰ,Academic Press,London.1975,241-308.
[15]	15 Parks,G.A.and P.L.de Bruyn,The zero point of charge of oxides,J.Phys.Chem.,66(1962),967-973.
[16]	16 Williams,D.J.A.and K.P.Willams,Electrophoresis and zeta potential of kaolinite,J.Colloid Interjace Sci.,65(1978),1:79-87.
[17]	17 胡泳絮、蔡阿根,徽电泳法测定水合氧化铁的等电点,台湾海峡,5(1986),1:38-43.
[18]	18 Touret,Christion,Elect roki netic behavior of a montmorillonite in water,CA;12(1969)47891.
[19]	19 Zhang Zhengbin and Liu Liansheng,Theory of interfacial stepwiseion;coordination particles exchange and its appliications,China Ocean Press,Beijing,1985,334.
[20]	20 郑士淮等,海水中悬浮粒子的微电泳研究Ⅰ:针铁矿、δ-MnO2的电泳淌度与酸度、重金属离子及有机物浓度的关系,山东海洋学院学报,17(1987),4:36-42.
[21]	21 张正斌、刘莲生等,海水中Cu,Zn,Cd与γ Al2O3作用的分级交换等温线,海洋与湖沼,18(1987),1:76-85.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133