淄博市大武水源地地下水有机污染物种类与分析评价
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摘要
为更好地防治淄博市大武水源地地下水的有机污染,对180组地下水样品中的有机污染物质进行分析,采用统计分析学和单因子评价法对地下水中的有机污染物种类及其分布特点进行分析与评价。结果显示,研究区地下水中的有机污染分布集中,主要分布在金岭回族镇北部,尤其是堠皋-西夏一带污染程度较高;有机污染物检出89项,总检出率为70.56%,主要是卤代烃和单环芳烃两大类;有机污染物的超标率为13.89%,超标有机项主要包括苯、三氯甲烷、四氯化碳、三氯乙烯。
To prevent the organic pollution of groundwater in Dawu source area in Zibo, this study analyzed the organic pollutants in 180 groundwater samples. The types and distribution characteristics of organic pollutants in groundwater were analyzed and assessed by using statistical analysis and single factor evaluation method. The results show that the distribution of organic pollution in the study area is mainly concentrated in north of Jinling Town in Zibo, especially in the Hougao-Xixia area. With 89 organic pollutants detected in groundwater, the total detection rate amounts to 70.56% and the main types of organic pollutants are halogenated hydrocarbons and monocyclic aromatic hydrocarbons. The over standard rate of organic pollutants is 13.89% and the pollutants were mainly trichloromethane, carbon tetrachloride, trichloroethylene and benzene.
To prevent the organic pollution of groundwater in Dawu source area in Zibo, this study analyzed the organic pollutants in 180 groundwater samples. The types and distribution characteristics of organic pollutants in groundwater were analyzed and assessed by using statistical analysis and single factor evaluation method. The results show that the distribution of organic pollution in the study area is mainly concentrated in north of Jinling Town in Zibo, especially in the Hougao-Xixia area. With 89 organic pollutants detected in groundwater, the total detection rate amounts to 70.56% and the main types of organic pollutants are halogenated hydrocarbons and monocyclic aromatic hydrocarbons. The over standard rate of organic pollutants is 13.89% and the pollutants were mainly trichloromethane, carbon tetrachloride, trichloroethylene and benzene.
引文
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[16]高宗军,田红,张春荣.水环境评价概述[J].山东科技大学学报(自然科学版),2007,26(1):20-48.GAO Zongjun,TIAN Hong,ZHANG Chunrong.Outline of water environment evaluation[J].Journal of Shandong University of Science and Technology(Natural Science),2007,26(1):20-48.
[17]杨丽芝,杨雪柯,刘春华.山东平原地区浅层地下水有机污染特征分析[J].中国地质调查,2015,2(8):25-30.YANG Lizhi,YANG Xueke,LIU Chunhua.Characteristics of organic pollution of shallow groundwater in Shandong plain[J].Geological Survey of China,2015,2(8):25-30.
[2]SAMIA K,DHOUHA A,ANIS C,et al.Assessment of organic pollutants(PAH and PCB) in surface water:Sediments and shallow groundwater of Grombalia watershed in northeast of Tunisia[J].Arabian Journal of Geosciences,2018,11(2):34.
[3]李亚松,张兆吉,费宇红,等.滹沱河冲积平原浅层地下水有机污染研究[J].干旱区资源与环境,2012,26(8):52-56.LI Yasong,ZHANG Zhaoji,FEI Yuhong,et al.Preliminary study on organic pollution of shallow groundwater in the alluvial plain of Hutuo river[J].Journal of Arid Land Resources and Environment,2012,26(8):52-56.
[4]LI Y S,ZHANG Z J,FEI Y H,et al.Investigation of quality and pollution characteristics of groundwater in the Hutuo River Alluvial Plain,North China Plain[J].Environmental Earth Sciences,2016,75(7):581.
[5]LI Y,JIANG T T,JING L F,et al.Characteristics and risk assessment of PCBs in drinking water source reservoirs of the Zhoushan Islands,East China[J].Lake and Reservoir Management,2014,30(3):273-284.
[6]YE H,ZHOU C H,ZENG X X.Investigation of pollution characteristics of polychlorinated biphenyls in the typical drinking water sources in Jiangsu Province,China[J].Environmental Monitoring and Assessment,2009,158(1/4):573-579.
[7]FU Q,ZHENG B H,ZHAO X R,et al.Ammonia pollution characteristics of centralized drinking water sources in China[J].Joumal of Environmental Sciences,2012,24(10):1739-1743.
[8]吴庆,郭永丽,翟远征.大武水源地地下水中NO3-N动态变化特征及其影响因素分析[J].水文,2017,37(6):68-73.WU Qing,GUO Yongli,ZHAI Yuanzheng.Dynamic variation characteristics of NO3-N in groundwater of Dawu water source and influencing factors[J].Journal of China Hydrology,2017,37(6):68-73.
[9]王兵.淄博市大武水源地有机污染物与污染源相关分析研究[J].质谱学报,2000,21(3/4):39-40.WANG Bing.Analysis of organic polluter in Dawu water source of Zibo city[J].Journal of Chinese Mass Spectrometry Society,2000,21(3/4):39-40.
[10]梁春.石油污染含水介质水动力特性研究[D].青岛:中国海洋大学,2011:20-92.
[11]曾丹,王盼秋,王波.淄博市地下水功能区划分及保护现状评价[J].地下水,2017,39(1):39-40.ZENG Dan,WANG Panqiu,WANG Bo.Classification of groundwater functional areas and evaluation of protection status in Zibo City[J].Ground Water,2017,39(1):39-40.
[12]边农方,彭俊峰.淄博市大武水源地三维可视化信息系统建设探析[J].陕西水利,2017,59(6):167-169.BIAN Nongfang,PENG Junfeng.Study on the construction of 3D visualization information system of Dawu water source in Zibo[J].Shaanxi Water Resources,2017,59(6):167-169.
[13]刘松霖.淄博市大武水源地地下水水质演化规律分析及污染趋势预测[D].北京:中国地质大学(北京),2013:16-55.
[14]徐绍辉,朱学愚.地下水石油污染治理的水力截获技术及数值模拟[J].水利学报,1999(1):72-77.XU Shaohui,ZHU Xueyu.Hydraulic capture technique for remedy of ground water contaminated by petroleum and its numerical model[J].Journal of Hydraulic Engineering,1999(1):72-77.
[15]曹红.污染场地有机污染物迁移转化规律及其含水层系统天然净化能力研究[D].青岛:山东科技大学,2010:18-85.
[16]高宗军,田红,张春荣.水环境评价概述[J].山东科技大学学报(自然科学版),2007,26(1):20-48.GAO Zongjun,TIAN Hong,ZHANG Chunrong.Outline of water environment evaluation[J].Journal of Shandong University of Science and Technology(Natural Science),2007,26(1):20-48.
[17]杨丽芝,杨雪柯,刘春华.山东平原地区浅层地下水有机污染特征分析[J].中国地质调查,2015,2(8):25-30.YANG Lizhi,YANG Xueke,LIU Chunhua.Characteristics of organic pollution of shallow groundwater in Shandong plain[J].Geological Survey of China,2015,2(8):25-30.
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