中国环境科学
中國環境科學
중국배경과학
CHINA ENVIRONMENTAL SCIENCE
2014年
1期
130-135
,共6页
朱文倩%徐斌%林琳%陈英英%徐倩
硃文倩%徐斌%林琳%陳英英%徐倩
주문천%서빈%림림%진영영%서천
微污染原水%溶解性有机氮%分子质量分布%亲疏水性%常规净水工艺%相关性
微汙染原水%溶解性有機氮%分子質量分佈%親疏水性%常規淨水工藝%相關性
미오염원수%용해성유궤담%분자질량분포%친소수성%상규정수공예%상관성
micro-polluted water%dissolved organic nitrogen%molecular weight distribution%hydrophilic/hydrophobic distribution%drinking water treatment process%correlation
以上海市黄浦江和青草沙长江原水为对象,研究了两大水源水中溶解性有机氮(DON)的含量变化、分子组成特征及其在常规净水工艺中的去除效果,并对DON与常规水处理指标间的相关性进行了分析.结果表明:两种原水以DOC、DON和UV254表征的有机物含量均以小分子量(<5kDa)和亲水性有机物为主;微污染黄浦江原水中同时存在外源性及内源性污染,而青草沙长江原水中内源性污染占主导地位;饮用水常规净水处理工艺对黄浦江原水中DON的去除率为40%,优于长江原水DON的去除率16.7%;黄浦江和长江原水DON浓度与DOC和UV254相关性良好,其相关系数分别为0.59,0.52和0.74,0.51;鉴于常规处理对DON去除效果有限,而DON是导致强三致特性含氮消毒副产物(N-DBPs)的总前体物,因此水厂应通过强化常规、深度处理等手段改善DON在净水工艺中的去除效果.
以上海市黃浦江和青草沙長江原水為對象,研究瞭兩大水源水中溶解性有機氮(DON)的含量變化、分子組成特徵及其在常規淨水工藝中的去除效果,併對DON與常規水處理指標間的相關性進行瞭分析.結果錶明:兩種原水以DOC、DON和UV254錶徵的有機物含量均以小分子量(<5kDa)和親水性有機物為主;微汙染黃浦江原水中同時存在外源性及內源性汙染,而青草沙長江原水中內源性汙染佔主導地位;飲用水常規淨水處理工藝對黃浦江原水中DON的去除率為40%,優于長江原水DON的去除率16.7%;黃浦江和長江原水DON濃度與DOC和UV254相關性良好,其相關繫數分彆為0.59,0.52和0.74,0.51;鑒于常規處理對DON去除效果有限,而DON是導緻彊三緻特性含氮消毒副產物(N-DBPs)的總前體物,因此水廠應通過彊化常規、深度處理等手段改善DON在淨水工藝中的去除效果.
이상해시황포강화청초사장강원수위대상,연구료량대수원수중용해성유궤담(DON)적함량변화、분자조성특정급기재상규정수공예중적거제효과,병대DON여상규수처리지표간적상관성진행료분석.결과표명:량충원수이DOC、DON화UV254표정적유궤물함량균이소분자량(<5kDa)화친수성유궤물위주;미오염황포강원수중동시존재외원성급내원성오염,이청초사장강원수중내원성오염점주도지위;음용수상규정수처리공예대황포강원수중DON적거제솔위40%,우우장강원수DON적거제솔16.7%;황포강화장강원수DON농도여DOC화UV254상관성량호,기상관계수분별위0.59,0.52화0.74,0.51;감우상규처리대DON거제효과유한,이DON시도치강삼치특성함담소독부산물(N-DBPs)적총전체물,인차수엄응통과강화상규、심도처리등수단개선DON재정수공예중적거제효과.
Dissolved organic nitrogen (DON) was the main precursors of toxic N-DBPs, and the removal effect of DON was unknown for conventional water treatment process (CWTP). Variation of existence and molecular composition of DON in Huangpu River and the Yangtze River and the removal effect in CWTP was investigated. The results showed that the small molecular (< 5kDa) and hydrophilic organic matters dominated the composition of DON, DOC and UV254 in both two kinds of raw water. In Huangpu River, both autochthonous and allochthonous NOM sources were found. However, the autochthonous sources dominated NOM sources in the Yangtze River. As the result of linear regression analysis of DON and regular water indexes, DON was moderately correlated to DOC with coefficient of 0.59 in Huangpu River and 0.52 in Yangtze River. DON was also correlated to UV254 with coefficient of 0.74 and 0.51 respectively. The DON removal rate by CWTP in the Huangpu River (40.0%) was higher than Yangtze River (16.7%). The great limitation of DON removal by CWTP indicated that the technology of enhanced conventional and advanced water treatment must be applied by the drinking water plants.