中国环境科学
中國環境科學
중국배경과학
CHINA ENVIRONMENTAL SCIENCE
2014年
9期
2279-2284
,共6页
李平%高星%吴锦华%朱能武%吴平霄
李平%高星%吳錦華%硃能武%吳平霄
리평%고성%오금화%주능무%오평소
溶解性有机物%腐殖酸%富里酸%亲水性有机物%紫外光谱
溶解性有機物%腐殖痠%富裏痠%親水性有機物%紫外光譜
용해성유궤물%부식산%부리산%친수성유궤물%자외광보
dissolved organic matters (DOM)%humic acids (HA)%fulvic acids (FA)%hydrophilic (HyI)%ultraviolet spectra
采用“物化+生物处理+深度处理”组合工艺处理垃圾焚烧厂渗滤液,探索组合工艺对渗滤液的实际去除效果,考察渗滤液中溶解性有机物(DOM)的组成及其结构特性随组合工艺的变化规律,并对其机理进行了初步探讨.结果表明,当进水 COD 和氨氮的平均值分别为17825,1946mg/L时,组合工艺对渗滤液中COD和氨氮去除率均达到99%左右,出水COD、氨氮、色度分别为57mg/L、5mg/L、15倍.组合工艺对渗滤液DOM中腐殖酸(HA)、富里酸(FA)和亲水性有机物(HyI)的去除率均达到99%左右,对HA、FA、HyI削减显著的工艺单元分别为混凝2、厌氧和颗粒活性炭(GAC),削减率分别达到86%、77%和84%.出水HA、FA和HyI的COD浓度分别为10,23,6mg/L,其中分子量较小的FA为出水主要组分.随着组合工艺处理过程的进行,渗滤液中DOM的紫外区吸光度值显著下降,DOM的E254、E253/E203分别由1.55、0.64下降至0.012和0.024,说明DOM的芳香性和复杂程度显著降低,脂肪链芳香化合物逐渐增加;此外,E300/E400和E465/E665分别由2.65和2.17增加至9.78和8.03,表明渗滤液中溶解性有机物腐殖化程度不断降低,芳香构化程度不断减小.
採用“物化+生物處理+深度處理”組閤工藝處理垃圾焚燒廠滲濾液,探索組閤工藝對滲濾液的實際去除效果,攷察滲濾液中溶解性有機物(DOM)的組成及其結構特性隨組閤工藝的變化規律,併對其機理進行瞭初步探討.結果錶明,噹進水 COD 和氨氮的平均值分彆為17825,1946mg/L時,組閤工藝對滲濾液中COD和氨氮去除率均達到99%左右,齣水COD、氨氮、色度分彆為57mg/L、5mg/L、15倍.組閤工藝對滲濾液DOM中腐殖痠(HA)、富裏痠(FA)和親水性有機物(HyI)的去除率均達到99%左右,對HA、FA、HyI削減顯著的工藝單元分彆為混凝2、厭氧和顆粒活性炭(GAC),削減率分彆達到86%、77%和84%.齣水HA、FA和HyI的COD濃度分彆為10,23,6mg/L,其中分子量較小的FA為齣水主要組分.隨著組閤工藝處理過程的進行,滲濾液中DOM的紫外區吸光度值顯著下降,DOM的E254、E253/E203分彆由1.55、0.64下降至0.012和0.024,說明DOM的芳香性和複雜程度顯著降低,脂肪鏈芳香化閤物逐漸增加;此外,E300/E400和E465/E665分彆由2.65和2.17增加至9.78和8.03,錶明滲濾液中溶解性有機物腐殖化程度不斷降低,芳香構化程度不斷減小.
채용“물화+생물처리+심도처리”조합공예처리랄급분소엄삼려액,탐색조합공예대삼려액적실제거제효과,고찰삼려액중용해성유궤물(DOM)적조성급기결구특성수조합공예적변화규률,병대기궤리진행료초보탐토.결과표명,당진수 COD 화안담적평균치분별위17825,1946mg/L시,조합공예대삼려액중COD화안담거제솔균체도99%좌우,출수COD、안담、색도분별위57mg/L、5mg/L、15배.조합공예대삼려액DOM중부식산(HA)、부리산(FA)화친수성유궤물(HyI)적거제솔균체도99%좌우,대HA、FA、HyI삭감현저적공예단원분별위혼응2、염양화과립활성탄(GAC),삭감솔분별체도86%、77%화84%.출수HA、FA화HyI적COD농도분별위10,23,6mg/L,기중분자량교소적FA위출수주요조분.수착조합공예처리과정적진행,삼려액중DOM적자외구흡광도치현저하강,DOM적E254、E253/E203분별유1.55、0.64하강지0.012화0.024,설명DOM적방향성화복잡정도현저강저,지방련방향화합물축점증가;차외,E300/E400화E465/E665분별유2.65화2.17증가지9.78화8.03,표명삼려액중용해성유궤물부식화정도불단강저,방향구화정도불단감소.
A novel process combined with physicochemistry biological treatment and advanced treatment was employed to treat leachate from incineration plant. The actual removal efficiency, dissolved organic matters (DOM) composition structure characteristics and the mechanism were investigated. Results showed the total removal efficiencies of COD and NH4+-N achieved approximately 99%. The influent COD (17825mg/L) and NH4+-N (1946mg/L) could be degraded to the effluent COD (57mg/L) and NH4+-N (5mg/L) respectively. In the combination process, the total COD removal efficiencies of HA, FA and HyI reached approximately 99%. The process units of significant cut for humic acids(HA), fulvic acids (FA), hydrophilic (HyI) were coagulation 2, anaerobic, granular activated carbon(GAC), respectively. The removal efficiencies for HA, FA, HyI reached 86%, 77%, 84%, respectively. The effluent COD values of HA, FA and HyI were 10, 23 and 6mg/L, respectively, FA of small molecular weight was the major component. The DOM ultraviolet absorbance value dropped significantly during the treatment. E254 and E253/E203 decreased from 1.55 and 0.64 to 0.012 and 0.024, which indicated that the aromaticity and complexity of DOM reduced significantly.The content of aliphatic chain increased gradually during the treatment process. In addition, E300/E400 and E465/E665 increased from 2.65 and 2.17 to 9.78 and 8.03, which also illustrated that the humification and aromatization degree reduced constantly.
