Abstract:In order to examine the removal of organic matter in the leachate which results in reverse osmosis (RO) membrane fouling, and to provides a reference to select appropriate pretreatment processes of RO, synchronous-scan fluorescence,three-dimensional excitation emission matrix fluorescence spectroscopic and UV-Vis spectrum of the dissolved organic matter (DOM) in different molecular weight range in effluent from each leachate process of “biochemical (UASB+A/O)and UF” pretreatment in some incineration plant were examined. The results of synchronous fluorescence spectra analysis showed that DOM in the wavelength range of 250~320 nm with all the molecular weight and in the wavelength>320 nm with molecular weight>1 KDa was removed obviously by the pretreatment processes. The results of three-dimensional excitation-emission matrix (3D-EEM) fluorescence spectra showed that the pretreatment processes removed low-excitation wavelength tyrosine-like,low-excitation wavelength tryptophan-like and high-excitation wavelength tryptophan-like with all the molecular weight off,and fulvic-like matter and high-excitation wave length tyrosine-like with molecular weight>1 KDa effectively. The results of UV-Vis spectra analysis showed that the pretreatment processes removed DOM of molecular weight>1 KDa with π—π* transition and DOM of all molecular weight with conjugated system of the benzene ring structure. It was concluded that the removal of both fulvic-like matter and high-excitation wave length tyrosine-like with the wavelength>320 nm,molecular weight<1 KDa and with π—π* transition should be strengthened for controlling (RO) membrane fouling, when leachate was treated by RO with the pretreatment processes of “biochemical(UASB+A/O)and UF”.
曾晓岚,韩 乐,刘建栋,丁文川,张 勤,江 岸 . 反渗透膜前预处理工艺去除渗滤液中DOM的光谱分析[J]. 光谱学与光谱分析, 2013, 33(12): 3312-3317.
ZENG Xiao-lan, HAN Le, LIU Jian-dong, DING Wen-chuan, ZHANG Qin, JIANG An . Spectra Analysis of Dissolved Organic Matter in Pretreatment Process of Leachate Treated by Reverse Osmosis . SPECTROSCOPY AND SPECTRAL ANALYSIS, 2013, 33(12): 3312-3317.