净水技术
淨水技術
정수기술
WATER PURIFICATION TECHNOLOGY
2014年
5期
17-23,42
,共8页
蔡广强%刘丽君%张金松%卢小艳%徐荣
蔡廣彊%劉麗君%張金鬆%盧小豔%徐榮
채엄강%류려군%장금송%로소염%서영
水合三氯乙醛%前体物%分子量分布%荧光特性%模式化合物
水閤三氯乙醛%前體物%分子量分佈%熒光特性%模式化閤物
수합삼록을철%전체물%분자량분포%형광특성%모식화합물
chloral hydrate (CH)%precursor%molecular weight distribution%fluorescence characteristic%model compound
运用超滤分离技术将水合三氯乙醛前体物含量最高的夏季水样中溶解性有机物分为四个部分,采用三维激发发射矩阵荧光光谱对不同分子量有机物组分进行表征,并对20种氨基酸、牛血清白蛋白等模式化合物进行氯化试验,以找出水合三氯乙醛的主要前体物成分。结果表明MW<1 kDa的水合三氯乙醛生成势含量最高,为24.81μg/L,其次为10 kDa<MW<0.45μm (17.49μg/L)、3 kDa<MW<10 kDa (8.16μg/L)和1 kDa<MW<3 kDa (5.50μg/L),其中MW<1 kDa和10 kDa<MW<0.45μm两部分有机物占水合三氯乙醛前体物含量的75.55%。三维激发发射矩阵荧光光谱结果表明水合三氯乙醛的主要前体物可能为类芳香性蛋白质和类微生物代谢产物等物质而非类富里酸和类腐殖酸。丙氨酸、天冬酰胺、天冬氨酸、半胱氨酸、组氨酸、苏氨酸、色氨酸、酪氨酸、牛血清白蛋白、鲱鱼精DNA等模式化合物是水合三氯乙醛主要前体物,其水合三氯乙醛生成量均大于30μg/mg C。
運用超濾分離技術將水閤三氯乙醛前體物含量最高的夏季水樣中溶解性有機物分為四箇部分,採用三維激髮髮射矩陣熒光光譜對不同分子量有機物組分進行錶徵,併對20種氨基痠、牛血清白蛋白等模式化閤物進行氯化試驗,以找齣水閤三氯乙醛的主要前體物成分。結果錶明MW<1 kDa的水閤三氯乙醛生成勢含量最高,為24.81μg/L,其次為10 kDa<MW<0.45μm (17.49μg/L)、3 kDa<MW<10 kDa (8.16μg/L)和1 kDa<MW<3 kDa (5.50μg/L),其中MW<1 kDa和10 kDa<MW<0.45μm兩部分有機物佔水閤三氯乙醛前體物含量的75.55%。三維激髮髮射矩陣熒光光譜結果錶明水閤三氯乙醛的主要前體物可能為類芳香性蛋白質和類微生物代謝產物等物質而非類富裏痠和類腐殖痠。丙氨痠、天鼕酰胺、天鼕氨痠、半胱氨痠、組氨痠、囌氨痠、色氨痠、酪氨痠、牛血清白蛋白、鯡魚精DNA等模式化閤物是水閤三氯乙醛主要前體物,其水閤三氯乙醛生成量均大于30μg/mg C。
운용초려분리기술장수합삼록을철전체물함량최고적하계수양중용해성유궤물분위사개부분,채용삼유격발발사구진형광광보대불동분자량유궤물조분진행표정,병대20충안기산、우혈청백단백등모식화합물진행록화시험,이조출수합삼록을철적주요전체물성분。결과표명MW<1 kDa적수합삼록을철생성세함량최고,위24.81μg/L,기차위10 kDa<MW<0.45μm (17.49μg/L)、3 kDa<MW<10 kDa (8.16μg/L)화1 kDa<MW<3 kDa (5.50μg/L),기중MW<1 kDa화10 kDa<MW<0.45μm량부분유궤물점수합삼록을철전체물함량적75.55%。삼유격발발사구진형광광보결과표명수합삼록을철적주요전체물가능위류방향성단백질화류미생물대사산물등물질이비류부리산화류부식산。병안산、천동선알、천동안산、반광안산、조안산、소안산、색안산、락안산、우혈청백단백、비어정DNA등모식화합물시수합삼록을철주요전체물,기수합삼록을철생성량균대우30μg/mg C。
Dissolved organic matter (DOM ) from the representative summer sample with the highest chloral hydrate formation potential (CHFP)was fractionated by a series of ultrafiltration membranes into four groups based on molecular weight (MW). Three-dimensional excitation and emission matrix (3D-EEM)fluorescence spectroscopy was employed to characterize different MW fractions. Ultimately,CH yields of model compounds including 20 amino acids (AAs),bovine serum albumin (BSA),etc. during chlorination were investigated,aiming to screen main CH precursors. The results indicate that the highest CHFP occurs in MW<1 kDa fraction, with the value of 24. 81 μg/L,and the next are 10 kDa<MW<0. 45 μm (17. 49 μg/L),1 kDa<MW<3 kDa (8. 16 μg/L)and 3 kDa<MW<10 kDa (5. 50 μg/L)fractions in sequence,in which the sum of MW<1 kDa and 10 kDa<MW<0. 45 μm fractions accounts for 75. 55% of total CHFP. The characterization of different MW fractions by 3D-EEM fluorescence spectroscopy manifests that the primary CH precursors can be aromatic protein-like and soluble microbial by-product-like substances rather than fulvic acid-like and humic acid-like substances. Alanine,asparagine,aspartic acid,cysteine,histidine,threonine,tryptophan,tyrosine,BSA, herring sperm DNA,CH yields of which are higher than 30 μg/mg C,are the main precursors of CH.