共查询到18条相似文献,搜索用时 250 毫秒
1.
四氯乙烯(PCE)是一种广泛用于干洗和脱脂的有机溶剂,是地下水中常见的污染物.在本实验中,将某肉联厂厌氧污泥接种到土壤中,进行微生物培养.当系统中的微生物活性较高时,以醋酸为共代谢基质,进行驯化实验,当系统中的微生物适应浓度为120μg/L的PCE之后,对PCE在厌氧条件下的降解情况进行研究.研究结果表明,将厌氧污泥接种到土壤中培养的微生物,在以醋酸为共代谢基质的条件下,可以使PCE很快转化为三氯乙烯(TCE),并可以进一步转化为二氯乙烯(DCEs).PCE在天然地下水中的半衰期为108d,本实验PCE降解的半衰期为2.95d,反应速率常数为0.2342d^-1. 相似文献
2.
天然地下水环境四氯乙烯的强化生物降解 总被引:1,自引:0,他引:1
采用批实验方法, 以天然地下水为基础培养液, 利用在实验室条件下培养驯化的微生物, 以醋酸作为共代谢基质, 加入酵母粉提供氮源, 研究了四氯乙烯(PCE) 的降解效果.研究表明, 通过强化影响PCE降解的某些因素, 在20℃的地下水环境中, PCE可以很快转化为三氯乙烯(TCE), 并可以进一步转化为二氯乙烯(DCEs), 但没有检测到DCEs的脱氯产物.PCE的脱氯速率为0.1848d-1, 半衰期为3.75d.亦研究了低温环境下PCE的降解效果.结果表明, 在低温环境下, PCE也可以发生生物降解, 但是脱氯速率相对较慢, 为0.0761d-1, 半衰期为9.11d, 且终产物为TCE. 相似文献
3.
铁还原环境下四氯乙烯的共代谢降解 总被引:1,自引:0,他引:1
用微环境批实验的方法研究了地下水中加入醋酸盐基质在铁还原环境下四氯乙烯(PCE)的共代谢降解;用接种活性污泥培养驯化后的微生物降解PCE。研究表明,在同一驯化周期中,随着驯化时间的变化,微生物量和活性呈增加的趋势,到第11天基本达到最大值;经过13天,PCE的去除率达90%以上,产生的Fe(Ⅱ)浓度为68.23 mg/L;加入PCE一天后,就有TCE的产生;在实验的第10天有少量DCEs的产生,到实验结束时,TCE的量没有下降;以地下水为基础培养液的铁还原环境,碳平衡达89.00%~100.0%。 相似文献
4.
四氯乙烯的生物吸附和厌氧生物降解研究 总被引:2,自引:2,他引:0
四氯乙烯(PCE)的广泛使用和不合理的处置已经使其成为地下水中普遍存在的有毒有害的有机污染物。PCE在厌氧条件下通过还原脱氯发生生物降解,按照非水溶性生物降解模型,有机物先吸附到厌氧活性污泥中,解吸后再进行生物降解。利用间歇试验进行厌养污泥对PCE的吸附降解实验研究。试验结果表明:厌氧污泥对PCE的吸附在0.5 h达到吸附平衡,在1.0 h达到解吸平衡。对实验结果的回归分析表明:PCE的吸附和解吸均符合Freundlich等温吸附方程。厌氧污泥在微生物的作用下将PCE还原脱氯为TCE和DCEs。 相似文献
5.
使用已驯化的厌氧活性污泥,分别以纯牛奶、玉米汁和甲苯作为共代谢基质,对三氯乙烯( TCE)的降解性能进行对比研究。结果表明:TCE是通过还原脱氯发生降解的;同质量浓度下,甲苯是最佳共代谢基质,纯牛奶和玉米汁相对较差;且在一定范围内,共代谢基质浓度越大,TCE降解效果越好;实验数据的回归结果表明,反应均符合一级动力学。 相似文献
6.
浅层地下水氯代烃污染天然衰减速率的估算 总被引:1,自引:0,他引:1
天然衰减恢复技术是恢复和控制浅层地下水氯代烃污染的技术之一,如何简便获取可靠的氯代烃衰减速率常数是该技术应用的一个关键。趋势线分析方法是一种简便有效的方法,在污染羽状体稳定的条件下,通过地下水流向上至少3口监测井的资料,能够比较准确地估算出污染物的天然衰减速率常数和生物降解速率常数。某氯代烃污染典型区的应用实例研究表明,该区四氯乙烯(PCE)的天然衰减速率常数和生物降解速率常数分别为0·000925d-1和0·000537d-1,证实该区浅层地下水中的PCE存在天然生物降解,但降解速率比较缓慢。忽略吸附作用的天然衰减容量计算所得出的天然衰减速率常数明显小于实际结果,说明尽管典型区包气带及含水层介质的有机碳含量很少,但它们对PCE的吸附作用不容忽视。 相似文献
7.
纳米镍-铁去除四氯乙烯的影响因素 总被引:1,自引:0,他引:1
氯代烃是地下水中最常检出的有机污染物之一,传统的处理方法需要很长时间与大量经费。本文利用批实验的研究方法以四氯乙烯(PCE)为目标污染物,研究纳米镍铁在去除PCE过程中的影响因素。实验结果表明,暴露后的纳米镍铁脱氯速率比不暴露时速率降低约4倍;反应温度是影响反应速率的重要因素之一,每升高10℃,反应速率常数kSA提高2~3倍;在一定范围内,镍/铁质量比越高,越利于脱氯反应的快速进行,镍/铁的质量比为8%左右时,对氯代烃脱氯速率最快;反应液中的溶解氧不利于纳米颗粒对氯代烃的降解。 相似文献
8.
ABR反应器基质降解动力学有关参数的试验研究 总被引:1,自引:0,他引:1
通过静态模拟实验探讨了厌氧折流板反应器各级基质降解动力学。试验结果表明在25℃条件下,各级有机底物最大比降解速率Vmax和饱和常数Ks分别依次为3.06/d-1、1.52/d-1、0.97/d-1和20157.89mg/L、2947.38mg/L、7007.40mg/L。通过各级Vmax的比较可知,级中微生物活性最大,微生物处于对数增殖期,而、级中微生物处于减速增殖期或内源呼吸期。 相似文献
9.
近年来,应用于修复石油烃污染地下水的监测自然衰减技术得到了广泛深入研究,同时质量通量方法已逐渐成为评
估地下水燃油污染场地自然衰减监测修复效能的重要手段。通过在室内砂槽中添加乙醇汽油组分,监测其自然衰减,利用
质量通量方法,得出了BTEX和乙醇的质量减少率、自然衰减速率常数K;结合非反应示踪剂溴离子,评价了BTEX和乙醇
自然衰减因素中吸附和微生物的联合降解效应。结果表明,自然衰减是地下水中燃油组分修复的重要机制,质量通量方法
是评估自然衰减的有效方法之一。BTEX和乙醇在自然衰减过程中被去除的比例分别为78.88%和98.71%,其中约98%的
BTEX 因吸附和生物降解联合作用被去除,接近100%的乙醇因内在生物降解作用被去除;BTEX 的自然衰减速率为
0.077d-1~0.167d-1,乙醇为0.353d-1,自然条件下乙醇比BTEX更容易衰减。 相似文献
10.
在室内砂槽实验尺度,建立了潜水-微承压含水层中电化学-水动力循环系统下混合氯代烃生物降解的反应迁移模型,求取了混合氯代烃体系中各组分的反应动力学参数,并基于模型探究了含水层性质及工艺参数对该修复过程的影响机制.研究结果表明:(1)增大抽水流量可加快反应速率常数大的污染物降解,同时也会抑制反应速率常数较小的污染物去除.(2)增大电流强度和井内电极对氯代烃的好氧降解和厌氧脱氯过程分别具有促进和抑制作用.(3)含水层非均质性越强,氯代烃降解速率越小,这尤其体现在低渗区,且含水层非均质性对易降解污染物修复效果的影响较小. 相似文献
11.
SHI Jinghua LIU Fei CHEN Honghan LI Ye 《《地质学报》英文版》2007,81(5):827-832
Tetrachloroethene (PCE) is biodegraded by reductive dechlorination with co-metabolism substrates under anaerobic conditions. By inoculating sludge from an anaerobic pool, a biodegradation test of PCE is conducted in the anaerobic condition. In the test, several substrates including methanol, ethanol, formate, acetate, lactate and glucose, are conducive to the conversion from PCE to TCE and 1,1-DCE. The results show the microbe can be cultivated well under the anaerobic circumstances of mixture of sewage (sludge) and soil with the index of COD after eleven days. Degradation of PCE accords with one order reaction kinetics equation. The sequence of the reaction rate constant is Kacetate 〉Kglucose 〉 Klactate 〉 Kethanol 〉 Kformate 〉 Kmethanol, and acetate is an outstanding co-metabolism substratum whose reaction rate constant is 0.6632d^-1. 相似文献
12.
A series of batch-type experiments with acetate acid as the primary substrate were performed using enrichment cultures developed from the anaerobic sludge to investigate the effect of acetate acid on tetrachloroethylene (PCE) biodegradation. Experimental results indicated that acetate acid was an efficient electron donor in affecting the biotransformability of PCE. Trichloroethylene (TCE) was the primary dehalogenation product, and small amounts of dichloroethylenes (DCEs) were also detected. No significant further DCEs degradation was detected. PCE degradation rate in the experiment was 36.6 times faster than background rate in natural groundwater. 相似文献
13.
This research evaluates an integrated technique for the degradation of perchloroethylene (PCE) using a combination of zero-valent
metal and an anaerobic microbial community. The microbial community was obtained from river sediment through a series of cultivation
and enrichment processes, and was able to successfully convert PCE to ethylene. The degradation tests were carried out in
five groups of reactors, i.e. Zn (zero-valent zinc), Fe (zero-valent iron), MB (a microbial community), ZnMB (zinc and a microbial
community) and FeMB (iron and a microbial community). The results suggested that the FeMB system had the highest efficiency
in removing PCE (about 99.9% after 24 days), followed by Zn (98.5%), ZnMB (84.8%), Fe (76.9%) and MB (49.6%). The degradation
kinetics of PCE could be described by a pseudo-first-order reaction; the apparent reaction rate constants were 0.231, 0.187,
0.135, 0.076, 0.031 days−1 for the Zn, FeMB, ZnMB, Fe, and MB systems, respectively. Much more Cl− was detected as a by-product in the degradation tests using FeMB or ZnMB than using Fe or Zn. The results implied that not
only PCE, but also the reaction intermediates, e.g., trichloroethylene (TCE) and dichloroethylenes (DCE isomers) may have
been dechlorinated in the FeMB and ZnMB systems. Results suggest that the presence of the microbial community in the FeMB
and ZnMB systems may not only affect the removal efficiency of PCE, but can also change the reaction pathways in the dechlorination
process. The integrated technique combining the iron and the microbial community showed better degradation efficiency than
the others; it may be viewed as an environmentally desirable remediation. 相似文献
14.
15.
A. K. Sharma D. Thornberg H. R. Andersen 《International Journal of Environmental Science and Technology》2013,10(6):1157-1166
The potential for reuse of iron-rich sludge from waterworks as a replacement for commercial iron salts in wastewater treatment was investigated using acidic and anaerobic dissolution. The acidic dissolution of waterworks sludge both in sulphuric acid and acidic products such as flue gas washing water and commercial iron solution was successful in dissolving the iron from waterworks sludge. The anaerobic dissolution of waterworks sludge due to co-digestion with biological sludge (primary and biological activated sludge) resulted in reduction of iron, increase in dissolved iron(II), increase in pH due to the produced alkalinity from dissolution of iron(III)hydroxides from waterworks sludge, lower internal recirculation of phosphate concentration in the reject water and reduced sulphide in the digested liquid. However, recirculation of the produced soluble iron(II) as an iron source for removal of phosphate in the wastewater treatment was limited, because the dissolved iron in the digester liquid was limited by siderite (FeCO3) precipitation. It is concluded that both acidic and anaerobic dissolution of iron-rich waterworks sludge can be achieved at the wastewater treatment plant, and are economically and environmentally more favourable compared to deposition of the waterworks sludge in controlled landfills. 相似文献
16.
H. Khorsandi Ph.D. H. Movahedyan Ph.D. B. Bina Ph.D. H. Farrokhzadeh M.Sc. 《International Journal of Environmental Science and Technology》2011,8(2):417-424
In this research, a novel laboratory scale anaerobic/upflow sludge blanket filtration combined bioreactor was designed and operated to improve the efficiency of the upflow sludge blanket filtration process for the simultaneous removal of phosphorus and nitrogen from wastewater. The anaerobic/upflow sludge blanket filtration technique was developed by adding an anaerobic reactor to its influent and operated by varying the main process parameters in order to gain the optimum conditions. The results showed that biological removal efficiency of nitrogen and preservation of sludge blanket strongly depend on wastewater characteristics, hydraulic retention time, sludge age and process controlling parameters. The combined bioreactor performed a total nitrogen removal efficiency of 96.6 % with the sludge age of 25 days, total hydraulic retention time of 24 h and optimum “chemical oxygen demand/nitrogen/phosphorus” ratio of 100/ 5/1. This ratio also improved the compaction quality of sludge blanket in the upflow sludge blanket filtration clarifier. The average specific nitrification and denitrification rates occurred during the process can be expressed as 4.43 mg NOx-N produced/g VSS.d and 5.50 mg NOx-N removed/g VSS.d at the optimum ratio, respectively. To avoid sludge rising due to denitrification process, the optimum total hydraulic retention time of 16 to 24 h was achieved based on the effluent quality. This study suggested that the anaerobic/upflow sludge blanket filtration bioreactor at the optimum operational conditions can be an effective process for removal of nutrients from municipal wastewater. 相似文献
17.
R. Bashiri M. Farhadian M. A. Asadollahi A. Jeihanipour 《International Journal of Environmental Science and Technology》2016,13(3):763-772
Effluent sludge from an anaerobic digester was used as a source of nitrogen, phosphate, sulfur, and other nutrients in the culture medium of ethanol production by the yeast Saccharomyces cerevisiae. Several pretreatments (mechanical, chemical, thermal, and thermo-chemical) were performed on the anaerobic digested sludge (ADS) to make the nutrients accessible to the yeast cells. Preliminary experiments revealed that S. cerevisiae is not able to assimilate the carbon content of the ADS. However, when glucose was added to the medium, ethanol production was observed. The yield of ethanol using untreated ADS was only 10 % of the theoretical yield, but alkaline pretreatment improved it up to 43 %. By separating the hydrolysate of alkaline-treated ADS from the suspended solids, the ethanol yield from the supernatant was further improved up to 65 % of theoretical yield. Alkaline-treated ADS exhibited competitive performance with the mixture of yeast extract and mineral salts in ethanol fermentation. 相似文献
18.
R. Riffat K. Krongthamchat 《International Journal of Environmental Science and Technology》2006,2(4):291-299
Wastewater containing high concentrations of salt, are difficult to treat using biological treatment processes, especially anaerobic processes. Limited information is available on methanogenic activity in saline environments. The objective of this research was to investigate the activity of halophilic methanogens, digester sludge and a mixed culture of halophilic and methanogenic bacteria, at various levels of salinity, in terms of lag period and specific methanogenic activity (SMA) at two temperatures. For the halophilic bacteria at 35 °C, the initial SMA ranged from 0.46 to 0.90 g acetate/g VSSd, but decreased at higher salt concentrations. The maximum SMA varied from 1.2 to 2.08 g acetate/g VSSd. High sodium chloride concentrations had a significant adverse effect on digester sludge. At 25 °C, at salt concentrations of 30 g/l and above, the digester sludge could not acclimate even in 50 days. Little difference was observed in the maximum SMA of mixed culture and halophilic bacteria at high salt concentrations of40–50 g/l. 相似文献