中国环境科学
中國環境科學
중국배경과학
CHINA ENVIRONMENTAL SCIENCE
2014年
7期
1740-1748
,共9页
刘冰%古励%余国忠%翟慧敏%赵承美
劉冰%古勵%餘國忠%翟慧敏%趙承美
류빙%고려%여국충%적혜민%조승미
城市污水处理厂二级出水%溶解性有机氮%臭氧%活性炭%三维荧光光谱
城市汙水處理廠二級齣水%溶解性有機氮%臭氧%活性炭%三維熒光光譜
성시오수처리엄이급출수%용해성유궤담%취양%활성탄%삼유형광광보
the secondary effluent in municipal wastewater treatment plant%dissolved organic nitrogen%ozone%activated carbon%3DEEM
为探讨臭氧氧化和活性炭吸附对城市污水厂二级出水中溶解性有机氮(DON)的去除机制,首先测定二级出水 DON、溶解性有机炭(DOC)、UV254、pH值等指标.接着通过臭氧氧化试验和活性炭吸附试验来考察二级出水中DON、DOC和UV254变化,以及DON分子量分布和DON亲疏水性变化,并应用三维荧光光谱对二级出水中DON变化进行表征.结果表明,当臭氧投加量为8mg/L,DON的去除率大约为33.9%,DOC和UV254去除率约21.2%、66.7%;当活性炭投加量为2.0g/L,DON、DOC和UV254的去除率大约为43.4%、27.6%、92.2%;臭氧氧化和活性炭吸附组合试验时,对DON的去除率大约为83.3%和81.5%;臭氧氧化提高小分子量(<6kDa)DON所占比例和降低大分子量(>20kDa)的DON所占比例;活性炭吸附降低小分子量(<6kDa)DON所占比例,提高大分子量(>20kDa)DON所占比例为;臭氧氧化和活性炭吸附都提高亲水性DON所占比例,而降低疏水性和过渡性DON所占比例;三维荧光光谱证实,二级出水中DON变化与3个主要峰有关,分别代表物质为色氨酸类蛋白质、芳香族类蛋白质和富里酸类物质.
為探討臭氧氧化和活性炭吸附對城市汙水廠二級齣水中溶解性有機氮(DON)的去除機製,首先測定二級齣水 DON、溶解性有機炭(DOC)、UV254、pH值等指標.接著通過臭氧氧化試驗和活性炭吸附試驗來攷察二級齣水中DON、DOC和UV254變化,以及DON分子量分佈和DON親疏水性變化,併應用三維熒光光譜對二級齣水中DON變化進行錶徵.結果錶明,噹臭氧投加量為8mg/L,DON的去除率大約為33.9%,DOC和UV254去除率約21.2%、66.7%;噹活性炭投加量為2.0g/L,DON、DOC和UV254的去除率大約為43.4%、27.6%、92.2%;臭氧氧化和活性炭吸附組閤試驗時,對DON的去除率大約為83.3%和81.5%;臭氧氧化提高小分子量(<6kDa)DON所佔比例和降低大分子量(>20kDa)的DON所佔比例;活性炭吸附降低小分子量(<6kDa)DON所佔比例,提高大分子量(>20kDa)DON所佔比例為;臭氧氧化和活性炭吸附都提高親水性DON所佔比例,而降低疏水性和過渡性DON所佔比例;三維熒光光譜證實,二級齣水中DON變化與3箇主要峰有關,分彆代錶物質為色氨痠類蛋白質、芳香族類蛋白質和富裏痠類物質.
위탐토취양양화화활성탄흡부대성시오수엄이급출수중용해성유궤담(DON)적거제궤제,수선측정이급출수 DON、용해성유궤탄(DOC)、UV254、pH치등지표.접착통과취양양화시험화활성탄흡부시험래고찰이급출수중DON、DOC화UV254변화,이급DON분자량분포화DON친소수성변화,병응용삼유형광광보대이급출수중DON변화진행표정.결과표명,당취양투가량위8mg/L,DON적거제솔대약위33.9%,DOC화UV254거제솔약21.2%、66.7%;당활성탄투가량위2.0g/L,DON、DOC화UV254적거제솔대약위43.4%、27.6%、92.2%;취양양화화활성탄흡부조합시험시,대DON적거제솔대약위83.3%화81.5%;취양양화제고소분자량(<6kDa)DON소점비례화강저대분자량(>20kDa)적DON소점비례;활성탄흡부강저소분자량(<6kDa)DON소점비례,제고대분자량(>20kDa)DON소점비례위;취양양화화활성탄흡부도제고친수성DON소점비례,이강저소수성화과도성DON소점비례;삼유형광광보증실,이급출수중DON변화여3개주요봉유관,분별대표물질위색안산류단백질、방향족류단백질화부리산류물질.
The mechanism of DON removal in the secondary effluent by ozonation and adsorption was investigated in this study. The water quality parameters, such as DON, DOC, NH4+-N, UV254 and pH etc, were determined. The variation in DON, DOC andUV254 in ozonation and adsorption tests measured, and the molecular weight distribution, hydrophilicity and hydrophobicity of the DON were then analyzed. The changes of DON in the secondary effluent were characterized using three-dimensional fluorescence spectroscopy. The results showed the removal of DON, DOC andUV254 were about 33.9%, 21.2% and 66.7%, respectively, at ozonation test and the dosage of ozone was 8mg/L. The removal of DON, DOC and UV254 were about 43.4%, 27.6% and 92.2% at the activated carbon dosage of 2.0g/L. By the combination of ozonation and adsorption the removal of DON was approximately 83.3% and 81.5%. Ozonation and acitivated carbon adsorption had opposite effects on the molecular distribution of DON. The proportions of smaller (<6 000) ones were increased by the former and decreased by the later. However, the larger (>20 000) ones were decreased by the former and increased by the later. Both treatment could increased the proportion of hydrophilic DON, and decreased them of hydrophobic and transitional DON. 3DEEM revealed that the variation of DON in ozonation and adsorption tests depended intimately on tryptophan protein-like and aromatic protein-like substances, and fulvic acid-like respectively.
