湘江流域铊污染物水环境容量与总量控制
Water environment capacity and total amount control of thallium pollutants in the Xiangjiang River watershed
-
摘要: 针对湖南湘江流域含铊工业废水大量排放,引起部分河段地表水铊含量超标的问题,通过对河流相应集水区各涉铊污染源进行调查分析,计算铊污染物入河量,选择模型,按水功能区划要求的水质目标,估算出目标河段铊污染物的水环境容量,并按容量总量管理模式,提出各地区、各污染源铊污染物排放与削减的分配方案.结果显示,湘江干流永州、郴州、衡阳和娄底段尚有一定的环境容量,而株洲、湘潭、长沙和岳阳段容量计算结果为负值,表明该河段铊污染物含量已超过水环境容量;除汨罗江外,湘江一级支流均有剩余的铊环境容量,容量较大的是耒水,其次是洣水和舂陵水;10条涉及铊排放的二级支流,都还有剩余环境容量,容量最多的是西河,其次是永乐江和攸水.铊排放超出环境容量的区域,须进行铊污染物削减,需要削减的地市有永州、衡阳、湘潭、长沙和岳阳,需要削减的行业涉及化工、有色、钢铁、锰业和玻璃行业,削减总量达到每年3.188 t.化工行业排放最大,为每年3.239 t,需要削减的量也最大,为每年2.862 t,占削减总量的89.8%.Abstract: In view of the situation that a lot of Tl(thallium) industrial wastewater is discharged into Xiangjiang River leading to Tl concentration beyond the environment quality standards in surface water, this paper estimated water environmental capacity of Tl pollutants by zero-dimensional calculation based on the provisions of water environmental functional demarcation for Hunan surface river and the survey results of the pollutant loads of the main thallium point sources. Furthermore, Tl water environment residual capacity and the demand for reducing the application were allocated to each pollution sources and each regions respectively. Results indicated that Tl water environmental capacities were still abundant in the reaches of Xiangjiang River in Yongzhou, Chenzhou, Hengyang and Loudi. On the other hand, Tl water environmental capacities were negative values in the reaches of Zhuzhou, Xiangtan,Changsha and Yueyang, which was meaning that Tl emission exceed the water environmental capacity in those regiones. The industries must reduce their application and emission of Tl in the corresponding catchment where Tl emission was exceeding the environmental capacity. The total reduction reaches 3.188 t·a-1 in the Xiangjiang Rive watershed. The chemical industry was demanded for the maximum reducing Tl emission, whose reduction rate was 89.8%.
-
-
[1] [2] 刘永. 广西贺江重金属污染背后:环境监管"难斗"地方保护[N]. 中国经营报, 2013.8.5.A15. LUI Y. Heavy metal pollution in the Hejiang River in Guangxi:A game between environmental regulation and local protection[R]. China Business Journal, 2013. 8.5.A15(in Chinese).
[3] ZITKO V. Toxicity and pollution potential of thallium[J].The Science of the Total Environment,1975,4:185-192. [4] XIAO T F,GUHA J, BOYLE D,et al. Environmental concerns related to high Tl levels in soils and Tl uptake by plants in southwest Guizhou, China[J]. Sci Total Environ, 2004, 318:223-224. [5] 张宝贵,张忠,胡静,等. 铊,铊中毒及铊在生态系中迁移径迹[J]. 地球与环境, 2009.37(2):131-135. ZHANG B G, ZHANG Z, HU J, et al. Tl, Tl poisoning, and Tl remove tracks in the ecological system[J]. Earth and Environment, 2009,37(2):131-135(in Chinese).
[6] 周文敏,傅德黔,孙宗光. 水中优先控制污染物黑名单[J].中国环境监测, 1990,6(4):1-3. ZHOU W M, FU D Q, SUN Z G. Black list of priority pollutants in water[J]. Environmental Monitoring in China,1990,6(4):1-3(in Chinese).
[7] USEPA. Water related fate of the 129 priority pollutants[R]. USEPA, Washington, DC, USA, 1979. [8] 陈代演.我国汞铊共生矿床中富铊矿体的首次发现及其成因初步研究[J].贵州工学院学报,1989,18(2):1-20. CHEN D Y. Discovery of rich-thalllium ore body in paragenesis ore deposit of mercury and thallium and research of its mineralization mechanism[J]. Journal of Guizhou Institute of Technology. 1989,18(2):1-20(in Chinese).
[9] 张宝贵,张忠,胡静,等.铊地球化学和铊超常富集[J]. 贵州地质, 2004, 21(4):240-244. ZHANG B G, ZHANG Z, HU J, et al. Thallium geochemistry and its ultra-normal enrichment[J]. Guizhou Geology, 2004, 21(4):240-244(in Chinese).
[10] 范裕,周涛发,袁峰,等. 安徽和县香泉独立铊矿床的地质地球化学特征及成因探讨[J].矿床地质, 2007, 26(6):597-608. FAN Y, ZHOU T F, YUAN F, et al. Geological-geochemical features and genesis of Xiangquan indepengdent thallium deposit in Hexian County, Anhui Province[J]. 2007,26(6):597-608(in Chinese).
[11] 王春霖,陈永亨,张永波等.铊的环境地球化学研究进展[J].生态环境学报, 2010,19(11):2749-2757. WANG C L, CHEN Y H, ZHANG Y B, et al. Overview of research about environmental geochemistry[J]. Ecology and Environmental Sciences, 2010, 19(11):2749-2757(in Chinese).
[12] 刘敬勇,常向阳,涂湘林. 重金属铊污染及防治对策研究进展[J]. 土壤,2007,39(4):528-535. LUI J Y, CHANG X Y, TU X L. Thallium pollution and its countermeasures[J]. Soils, 39(4):528-535(in Chinese).
[13] 孟伟,张楠,张远,等. 流域水质目标管理技术研究(Ⅰ)——控制单元的总量控制技术[J]. 环境科学研究, 2007,20(1):1-8. MENG W, ZHANG N, ZHANG Y,et al. The study on technique of basin water quality target management Ⅰ:Pollutant total amount control technique in control unit[J]. Research of Environmental Sciences, 2007,20(4):1-8(in Chinese).
[14] 吴丹,李薇,肖锐敏. 水环境容量与总量控制在制定排放标准中的应用[J].环境科学与技术, 2005, 28(2):48-50. WU D, LI W, XIAO R M. Application of water environmental capacity and total pollution quantity control to Formulation of effluent criteria[J]. Environmental Sciences and Technology, 2005, 28(2):48-50(in Chinese).
[15] 魏文龙,曾思育,杜鹏飞,等. 一种兼顾目标总量和容量总量的水污染物排放限值确定方法[J].中国环境科学,2014,34(1):136-142. WEI W L, ZENG S Y, DU P F, et al. A method for determining water pollutant discharge limit based on combination of administrative goal-oriented and environmental capacity-based total pollution load control patterns[J]. China Environmental Science, 2014,34(1):136-142(in Chinese).
[16] 邓红梅,陈永亨. 水中铊的污染及其生态效应[J]. 环境化学, 2008, 27(3):363-367. DENG H M, CHEN Y H. Thallium pollution and its ecological effect in water[J]. Environmental Chemistry, 2008, 27(3):363-367(in Chinese).
[17] 湖南省地表水环境容量核定技术报告[R].长沙:湖南省环境保护厅,2005. Technical report of surface water environmental capacity in Hunan Province[R]. Hunan Changsha:Environmental Protection Department of Hunan Province of China, 2005(in Chinese). [18] 王伟良.东江惠州段流域水环境容量计算与总量控制研究[D]. 长沙:中南大学, 2009. WANG W L. Research of estimation of water environmental capacity and total capacity control method system in Dongjiang River in Huizhou[D]. Changsha:Central South University, 2009(in Chinese). [19] 李鸣. 鄱阳湖重金属污染特征研究及环境容量估算[D]. 南昌:南昌大学, 2010. LI M. Heavy metal pollution characteristics and environmental capacity estimate of Poyang lake[D]. Nanchang:Nanchang University,2010(in Chinese). [20] 王长友. 东海Cu、Pb、Zn、Cd重金属环境生态效应评价及环境容量估算研究[D]. 青岛:中国海洋大学, 2008. WANG C Y. The studies of environmentally ecological effects assessment and environmental capacity estimation of the heavy metal Cu, Pb, Zn, Cd in the East China Sea[D]. Qingdao:Ocean University of China, 2008(in Chinese). -
点击查看大图
计量
- 文章访问数: 1461
- HTML全文浏览数: 1382
- PDF下载数: 535
- 施引文献: 0
下载:
