Brillas E.,Sauleda R.,Casado J.Degradation of 4-chlorophenol by anodic oxidation,electro-fenton,photoelectro-fenton,and peroxy-coagulation processes.Journal of the Electrochemical Society,1998,145:759 ~ 765
[4]
Shen Z.Z.,Cheng J.Z.,Wu S.J.Sonolysis and mineralization of pentachlorophenol by means of varying parameters.Journal of Environmental Sciences,2004,16 (3):431 ~ 435
[5]
Fujita T.,Ona E.P.,Kojima Y.,et al.Ultrasonic decomposition of (4-chloro-2-methyl phenoxy) acetic acid (MCPA)in aqueous solution.Journal of Chemical Engineering of Japan,2003,36(7):806 ~ 811
[6]
Asim K.D.,Basab C.,Sekhar B.A kinetic study of the oxidation of phenol,o-chlorophenol and catechol by hydrogen peroxide between 298 K and 333 K the effect of pH,temperature and ratio of oxidant to substrate.Journal of Chemical Technology and Biotechnology,1999,74:162 ~168
[7]
孙德智,于秀娟,冯玉杰.环境工程中的高级氧化技术.北京:化学工业出版社,2002.307~308
[8]
Li G.,Qu J.,Zhang X.,et al.Electrochemically assisted photocatalytic degradation of acid orange 7 with β-PbO2 electrodes modified by TiO2.Water Research,2006,40 (2):213 ~ 220
[9]
Brillas E.,Boye B.,Sires I.,et al.Electrochemical destruction of chlorophenoxy herbicides by anodic oxidation and electro-Fenton using a boron-doped diamond electrode.Electrochimica Acta,2004,49 (25):4487 ~ 4496
[10]
Song W.F.,Wu B.,Ni Y.M.Study on mechanism and kinetics of treatment of organic wastewater by dimensionally stable anode.Shanghai Huanjing Kexue,2001,20 (2):78 ~81
[11]
Tang W.Z.,Huang C.P.Photocatalyzed oxidation pathways of 2,4-dichlorophenol by CdS in basic and acidic aqueous solution.Water Research,1995,29 (3):745 ~ 756
[12]
Zhou M.H.,Wu Z.C.,Wang D.H.Synergetic effects of UV/Fe3 combined with electrocatalysis for p-Nitrophenol degradation.Chinese Chemical Letters,2002,13 (4):375~ 378
Ma K.C.,Shiu W.Y.,Mackay D.Aqueous solubilities of chlorinated phenols at 25℃.Journal of Chemical and Engineering Data,1993,38:364 ~ 366
[15]
Wightman P.G.,Fein J.B.Experimental study of 2,4,6-trichlorophenol and pentachlorophenol solubilities in aqueous solutions:Derivation of a speciation-based chlorophenol solubility model.Applied Geochemistry,1999,14(4):319~331
[16]
Kishino T.,Kobayashi K.Relation between the chemical structures of chlorophenols and their disociation constants and partition coefficients in several solvent-water systems.Water Research,1994,28:1547 ~ 1552
[17]
Ribeiro A.,Neves M.H.,Almeida M.F.,et al.Direct determination of chlorophenols in landfill leachates by solid phase microextraction-gas chromatography/mass spectrometry.Journal of Chromatography A,2002,975:267 ~ 274
[18]
Fiamegos Y.C.,Nanos C.G.,Pilidis G.A.,et al.Phasetransfer catalytic determination of phenols as methylated derivatives by gas chromatography with flame ionization and mass-selective detection.Journal of Chromatography A,2003,983 (1):215 ~ 223
[19]
Li X.J.,Zeng Z.R.,Zhou J.J.High thermal-stable solgel-coated calix[4] arene fiber for solid-phase microextraction of chlorophenols.Analytica Chimica Acta,2004,509(1):27 ~ 37
[20]
Han J.,Deming L.R.,Tao F.M.Theoretical study of molecular structures and properties of the complete series of chlorophenols.Journal of Physical Chemistry A,2004,108:7736 ~ 7743
