3-D Fluorescence Properties of Petrochemical Wastewater
WU Jing1, CAO Zhi-ping1, XIE Chao-bo1, SUN Ya-nan1,2, DAI Chun-yan1, XIANG Xi1
1. Environment Simulation and Pollution Control State Key Joint Laboratory, Department of Environmental Science and Engineering, Tsinghua University, Beijing 100084, China 2. China’s Oil Jinzhou Petrochemical Company, Jinzhou 121001, China
Abstract:Petrochemical wastewater is one of major types of industrial wastewater in China. It is of huge quantity and causes serious pollution. Wastewater contains lots of fluorescence matters. Its fluorescence spectrum could exhibit organic components and unique for each sample like fingerprint. Thus it is referred to as fluorescence fingerprint of water quality, in brief aqueous fingerprint. This paper presented that there were almost 10 peaks in the aqueous fingerprint of petrochemical wastewater from a large-scale petrochemical plant, including the peak at the excitation/emission wavelengths (λex/λem) of around 230/340 nm. That peak exists in the fluorescence spectra of various petroleum materials. The aqueous fingerprint was divided into 3 zones according to the relationship of fluorescence intensity of peaks: the linear relation between the peaks from different zones was not significant while that between the peaks from same zone was significant with coefficients of above 0.85. The zone around λex/λem=230/305 nm might relate to benzene compounds and the zone around λex/λem =220~320/230~440 nm (excluding the zone around λex/λem=230/305 nm) showed close relation with the raw materials (petroleum materials). The intensity of each peak had a fixed range. That range and relationships between peaks could be the evidences for diagnosing if the performance of the production processes is proper.
[1] Wu J,Pons M N,Potier O. Water Science and Technology,2006,53(4-5):449. [2] WU Jing,CHEN Mao-fu, CHEN Qing-jun(吴 静,陈茂福,陈庆俊). Acta Optica Sinica(光学学报), 2008,28(10):2022. [3] Reynolds D M,Ahmad S R. Water Research,1997,31:2012. [4] Baker A,Curry M. Water Research,2004,38:2605. [5] Hundson N, Baker A,Reynolds D. River Research and Applications, 2007, 23: 631. [6] CHEN Mao-fu, WU Jing, Lü Yan-li, et al(陈茂福, 吴 静, 律严励, 等). Acta Optica Sinica(光学学报),2008, 28(3): 578. [7] Zhao Junjie. Master Thesis, Harbin Institute of Technology, 2009. [8] LI Na, WANG Xuan, Lü Xiao-long(李 娜, 王 暄, 吕晓龙). Environmental Protection of Chemical Industry(化工环保),2008, 28(5): 427. [9] “China Environmental Statistics” Theme Group(《中国环境统计》专题组). China Environmental Statistics 2002(中国环境统计2002). Beijing: China Environmental Scince Press(北京:中国环境科学出版社), 2003. [10] Chen Qing-jun. Master Thesis, Tsinghua University, 2008. [11] LIU Wei, HU Bin, YU Dun-yuan,et al(刘 伟, 胡 斌, 于敦源,等). Geophysical and Geochemical Exploration(物探与化探),2004, 28(2): 123. [12] HU Ze-jian, WANG Ke-min, RAN Shao-chun(胡泽建, 王克闵, 冉绍春). Journal of Oceanograpgy of Huanghai and Bohai Seas(黄渤海海洋),1998, 16(4): 36. [13] CAO Zhi-kui, DONG Xian-dui(曹志奎, 董献堆). Journal of Northeast Normal University(东北师范大学学报). 2005, 37(3): 64. [14] SHANG Li-ping, LI Zhan-feng(尚丽平, 李占锋). Chinese Journal of Scientific Instrument(仪器仪表学报). 2006, 27(6): 2107. [15] XIA Da-ying, ZHANG Shi-kui, LI Bao-hua, et al(夏达英, 张士魁, 李宝华,等). Journal of Oceanography of Huanghai and Bohai Seas(黄渤海海洋),2002, 20(2): 91. [16] CHEN Fang(陈 芳). Journal of Shanxi Coal-Mining Administrators College(山西煤炭管理干部学院学报),2008, 2: 162.
