Briggs G.G,Theoretical and experimental relationships between soil adsorption,octanol, water partition coefficients,water solubilities,bioconcentration factors, and the parachor,Journal of Agriculture Food Chemical,1981(05).
[3]
陈宜菲;陈少瑾,利用零价铁还原土壤中硝基苯类化合物的研究,环境科学学报,2007(02).
[4]
Scherer M.M;Johnson K.M;Westall J.C,Mass transport effects on the kinetics of nitrobenzene reduction by iron metal,Environmental Science and Technology,2001(13).
[5]
Mabey W.R;Smith J.H;Podoll R.T,Aquatic fate process data for organic priority pollutants,Washington D.C.:Environmental Protection Agency,1982.
[6]
Jones K.C;Alcock R.E;Johnson D.L,Organic chemicals in contaminated land:Analysis,significance and research priorities,Land Contamination and Reclamation,1996(03).
Kaiser K;Zech W,Rate of dissolved organic matter release and sorption in forest soils,Soil Science,1998(09).
[9]
中国科学院南京土壤研究所,土壤理化分析,上海:上海科学技术出版社,1978.
[10]
吴双桃;陈少瑾;胡劲召,零价铁对土壤中硝基苯类化合物的还原作用,中国环境科学,2005(02).
[11]
陈少瑾;陈宜菲;张二华,土壤中取代硝基苯化合物被零价铁还原的机理,环境化学,2006(03).
[12]
肖羽堂;王继徽,二硝基氯苯废水预处理技术研究,化工环保,1997(5).
[13]
Johnson T.L;Scheres M.M;Tratnyek P.G,Kinetics of halogenated organic compound degradation by iron metal,Environmental Science and Technology,1996(08).
[14]
樊金红;徐文英;高廷耀,零价铁体系预处理硝基苯废水机理的研究,工业用水与废水,2004(06).
[15]
Hung H. M;Ling F.H;Hoffmann M.R,Kinetics and mechanism of the enhanced reductive degradation of nitrobenzene by elemental iron in the presence of ultrasound,Environmental Science and Technology,2000(9).