光谱学与光谱分析
光譜學與光譜分析
광보학여광보분석
SPECTROSCOPY AND SPECTRAL ANALYSIS
2015年
5期
1203-1207
,共5页
范春辉%张颖超%唐泽恒%王家宏
範春輝%張穎超%唐澤恆%王傢宏
범춘휘%장영초%당택항%왕가굉
制革废水%溶解性有机物%FTIR%13C NMR%热重分析
製革廢水%溶解性有機物%FTIR%13C NMR%熱重分析
제혁폐수%용해성유궤물%FTIR%13C NMR%열중분석
Tannery wastewater%Dissolved organic matter%FTIR%13C NMR%TG
制革业是我国重要的工业门类,年废水排放量2亿t以上。制革废水中油脂、皮屑、胶原蛋白等大分子有机物含量较高,同时兼具高盐、高碱、高负荷的特点,已被相关部门列为重点监控的工业污染源。在制革废水的处理方面,不仅要关注进出水的水质参数,同时也要监测废水处理过程污染物的转化规律,以便为废水处理工艺的优化和废水处理设备的研发提供基本数据。溶解性有机物(DOM )广泛存在于各类水体中,是表征废水理化性质和净化程度的重要参数。目前,对于制革废水处理过程DOM 性质的研究尚很欠缺。以此为切入点,采用元素分析、热重分析、红外光谱和核磁共振表征制革废水不同处理工段的DOM 样品。研究发现:制革废水处理时间的延长导致DOM中C元素含量升高,H/C原子比先增加后降低,说明大分子有机物首先被分解为小分子链状结构,最终存在于水体的是极难降解的终极结构组分。DOM 脂肪族化合物和蛋白组分的热解发生在第二阶段(110~530℃),第三阶段(530~800℃)主要完成芳环的降解或C—C键的断裂。废水原水DOM主要含有—OH ,—NH2, C O 等官能团,FTIR图谱证明了废水处理中后期高聚合度芳香族物质的存在,这是微生物新陈代谢作用的结果。DOM中烷基C含量先增加后减少,含量最大值(25.25%)出现在二级生化池;芳香C含量的最小值(28.28%)出现在二级生化池,而后迅速上升,暗示了废水处理过程含C官能团种类和数量的交替变化规律。对制革废水DOM 性质的跟踪识别有助于从总体上推断污染物的净化机制。
製革業是我國重要的工業門類,年廢水排放量2億t以上。製革廢水中油脂、皮屑、膠原蛋白等大分子有機物含量較高,同時兼具高鹽、高堿、高負荷的特點,已被相關部門列為重點鑑控的工業汙染源。在製革廢水的處理方麵,不僅要關註進齣水的水質參數,同時也要鑑測廢水處理過程汙染物的轉化規律,以便為廢水處理工藝的優化和廢水處理設備的研髮提供基本數據。溶解性有機物(DOM )廣汎存在于各類水體中,是錶徵廢水理化性質和淨化程度的重要參數。目前,對于製革廢水處理過程DOM 性質的研究尚很欠缺。以此為切入點,採用元素分析、熱重分析、紅外光譜和覈磁共振錶徵製革廢水不同處理工段的DOM 樣品。研究髮現:製革廢水處理時間的延長導緻DOM中C元素含量升高,H/C原子比先增加後降低,說明大分子有機物首先被分解為小分子鏈狀結構,最終存在于水體的是極難降解的終極結構組分。DOM 脂肪族化閤物和蛋白組分的熱解髮生在第二階段(110~530℃),第三階段(530~800℃)主要完成芳環的降解或C—C鍵的斷裂。廢水原水DOM主要含有—OH ,—NH2, C O 等官能糰,FTIR圖譜證明瞭廢水處理中後期高聚閤度芳香族物質的存在,這是微生物新陳代謝作用的結果。DOM中烷基C含量先增加後減少,含量最大值(25.25%)齣現在二級生化池;芳香C含量的最小值(28.28%)齣現在二級生化池,而後迅速上升,暗示瞭廢水處理過程含C官能糰種類和數量的交替變化規律。對製革廢水DOM 性質的跟蹤識彆有助于從總體上推斷汙染物的淨化機製。
제혁업시아국중요적공업문류,년폐수배방량2억t이상。제혁폐수중유지、피설、효원단백등대분자유궤물함량교고,동시겸구고염、고감、고부하적특점,이피상관부문렬위중점감공적공업오염원。재제혁폐수적처리방면,불부요관주진출수적수질삼수,동시야요감측폐수처리과정오염물적전화규률,이편위폐수처리공예적우화화폐수처리설비적연발제공기본수거。용해성유궤물(DOM )엄범존재우각류수체중,시표정폐수이화성질화정화정도적중요삼수。목전,대우제혁폐수처리과정DOM 성질적연구상흔흠결。이차위절입점,채용원소분석、열중분석、홍외광보화핵자공진표정제혁폐수불동처리공단적DOM 양품。연구발현:제혁폐수처리시간적연장도치DOM중C원소함량승고,H/C원자비선증가후강저,설명대분자유궤물수선피분해위소분자련상결구,최종존재우수체적시겁난강해적종겁결구조분。DOM 지방족화합물화단백조분적열해발생재제이계단(110~530℃),제삼계단(530~800℃)주요완성방배적강해혹C—C건적단렬。폐수원수DOM주요함유—OH ,—NH2, C O 등관능단,FTIR도보증명료폐수처리중후기고취합도방향족물질적존재,저시미생물신진대사작용적결과。DOM중완기C함량선증가후감소,함량최대치(25.25%)출현재이급생화지;방향C함량적최소치(28.28%)출현재이급생화지,이후신속상승,암시료폐수처리과정함C관능단충류화수량적교체변화규률。대제혁폐수DOM 성질적근종식별유조우종총체상추단오염물적정화궤제。
Nowadays ,the wastewater quantity discharged yearly from tannery industry is around 0 .2 billion t in China .The con-taminants of tannery wastewater include macromolecular organic matters ,such as grease ,fur scraps and collagen ,and the alka-line wastewater appears to be of high content of salt and COD .The quality of tannery wastewater is monitored strictly among all kinds of industry wastewater .In the treatment process of tannery wastewater ,the quality of inlet and outlet water is generally analyzed .In fact ,the transformation behavior of contaminants should be additionally checked to optimize the treatment condi-tions .Dissolved organic matter (DOM) is commonly existed in water-bodies and helpful to understand the physicochemical char-acteristics ,while the related work should be further studied on tannery wastewater .The approaches of elemental analysis ,ther-mal gravimetric analysis (TG) ,Fourier infrared spectroscopy (FTIR) and 13C nuclear magnetic resonance (13C NMR) were used to reveal the characteristics of DOM in the treatment process of tannery wastewater .The results showed:the carbon content of DOM samples increased gradually ,atomic ratios of H/C increased firstly and then decreased ,indicating the organic matters were decomposed into chain structures firstly ,finally forming the component hard to degraded .The pyrolysis process of DOM mainly proceeded in the regions of 110~530 ℃ (aliphatic compound ,protein ,etc .) and 530~800 ℃ (aromatic ring ,single bond of C—C ,etc .) .The functional groups of DOM included —OH ,—NH2 , C O and so on ,and the aromatic substances were de-tected ,shown from FTIR figures ,in the later period of the reaction ,caused by the metabolism effect of micro-organism .The content of alkoxy-C increased to the maximum in the second biochemical pond ,and the minimum content of aromatic-C appeared in the second biochemical pond ,suggesting the transformation behavior of carbon functional groups .The investigation on DOM in tannery wastewater is significant to understand the purification mechanism of contaminants in tannery wastewater .