中国环境科学
中國環境科學
중국배경과학
China Environmental Science
2015年
9期
2706-2712
,共7页
陈环宇%柳景青%魏宗元%张慧慧%何晓芳%周晓燕%裘尚德%胡宝兰%楼莉萍
陳環宇%柳景青%魏宗元%張慧慧%何曉芳%週曉燕%裘尚德%鬍寶蘭%樓莉萍
진배우%류경청%위종원%장혜혜%하효방%주효연%구상덕%호보란%루리평
供水管网%管垢%重金属%有机污染物%GC-MS%XRD
供水管網%管垢%重金屬%有機汙染物%GC-MS%XRD
공수관망%관구%중금속%유궤오염물%GC-MS%XRD
drinking water distribution system%pipe scales%heavy metals%organic contaminant%GC-MS%XRD
以管龄为11年的城市主供水管道上的DN300球墨铸铁管为研究对象,采用扫描电镜(SEM)、能谱分析(EDS)、晶体衍射结构分析(XRD)等手段对其径向不同位置的管垢进行了表征,并分析了其各类金属与有机污染物的分布差异.结果表明:管道下部的管垢总量高,平均粒径大.重金属在空间上的分布明显不同,铁、锰、锌、铅、铜和铬在上部的管垢中含量最高,而下部管垢中,铝的含量最高,该分布与管垢中其来源密切相关.管垢中累积了多种的有机污染物,除了微生物代谢形成的烃类物质之外,还累积了藻类的代谢产物及外源有机污染物,不同位置上出现的有机污染物类型也有所差异.该研究结果对将来饮用水管网生物化学安全的研究方法提出了更高的要求,并为管网的饮用水安全保障提供了理论依据.
以管齡為11年的城市主供水管道上的DN300毬墨鑄鐵管為研究對象,採用掃描電鏡(SEM)、能譜分析(EDS)、晶體衍射結構分析(XRD)等手段對其徑嚮不同位置的管垢進行瞭錶徵,併分析瞭其各類金屬與有機汙染物的分佈差異.結果錶明:管道下部的管垢總量高,平均粒徑大.重金屬在空間上的分佈明顯不同,鐵、錳、鋅、鉛、銅和鉻在上部的管垢中含量最高,而下部管垢中,鋁的含量最高,該分佈與管垢中其來源密切相關.管垢中纍積瞭多種的有機汙染物,除瞭微生物代謝形成的烴類物質之外,還纍積瞭藻類的代謝產物及外源有機汙染物,不同位置上齣現的有機汙染物類型也有所差異.該研究結果對將來飲用水管網生物化學安全的研究方法提齣瞭更高的要求,併為管網的飲用水安全保障提供瞭理論依據.
이관령위11년적성시주공수관도상적DN300구묵주철관위연구대상,채용소묘전경(SEM)、능보분석(EDS)、정체연사결구분석(XRD)등수단대기경향불동위치적관구진행료표정,병분석료기각류금속여유궤오염물적분포차이.결과표명:관도하부적관구총량고,평균립경대.중금속재공간상적분포명현불동,철、맹、자、연、동화락재상부적관구중함량최고,이하부관구중,려적함량최고,해분포여관구중기래원밀절상관.관구중루적료다충적유궤오염물,제료미생물대사형성적경류물질지외,환루적료조류적대사산물급외원유궤오염물,불동위치상출현적유궤오염물류형야유소차이.해연구결과대장래음용수관망생물화학안전적연구방법제출료경고적요구,병위관망적음용수안전보장제공료이론의거.
The surface character of a 11-year-old DN300 ductile cast iron pipes of main pipelines in drinking water distribution system was investigated by atomic absorption spectrometry, GC-MS, EDS, and XRD, and the content of pollutants, such as metals and organic compounds, also detected. Results showed that, the pipe scales of the lower part had the maximum amount and the maximum average particle size. The spatial distribution of heavy metals was significantly different. The concentration of iron, manganese, zinc, lead, copper and chromium was highest in the upper pipe scales. While the highest content of aluminum was detected in the lower pipe scales. The distribution was closely related with its resource in pipe scales. Beside some common types of hydrocarbons formed by microbial metabolites, there were also some microalgae metabolites and exogenous contaminant accumulated in pipe scales. And types of organic pollutants varied in different spatial locations. The finding put forward higher requirements on the research method about drinking water distribution system biochemical safety, and provided a theoretical basis for the drinking water safety.
