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1.
不同基质共代谢降解地下水中四氯乙烯的研究 总被引:4,自引:0,他引:4
文中以甲醇、乙醇、甲酸盐、乙酸盐、乳酸盐和葡萄糖作为共代谢基质,利用某污水处理厂厌氧池中的污水(泥)作为接种物,对厌氧微生物进行培养和驯化,降解四氯乙烯(PCE)。实验结果表明,在厌氧污水(泥)和土壤混合环境下培养的微生物,以COD为培养指标,11d可培养成熟。6种基质均能使PCE还原脱氯降解成三氯乙烯(TCE)和1,1-二氯乙烯(1,1-DCE),PCE的降解均符合一级反应动力学方程,反应速率常数大小依次为K乙酸盐>K葡萄糖>K乳酸盐>K乙醇>K甲酸盐>K甲醇,其中乙酸盐是最有效的共代谢基质,其反应速率常数为0·6632d-1。 相似文献
2.
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
3.
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
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.
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
6.
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
7.
8.
文章选用四氯乙烯(PCE)为代表性重非水相液体(DNAPL),采用透射光法监测PCE在单裂隙介质中的运移过程和形态分布,探究流速及裂隙面倾斜度对PCE运移分布行为的影响。结果表明,单裂隙介质中PCE呈团块状脱离注样针,并在运移过程中呈近椭圆状。地下水流速越大,初始面积Fs越大,近椭圆的PCE离心率e越小;裂隙面倾斜度越大,初始面积Fs越小,近椭圆的PCE离心率e越小。不同流速或倾斜度条件下,入渗稳定后的PCE团块面积与离心率均明显下降。地下水流速及裂隙面倾斜度的增大对于PCE纵向运移具有促进作用,使PCE污染物前端锋面运移速率增大,在相同时间内更快运移到裂隙底部。PCE入渗停止后,流速增大促使污染源区PCE饱和度降低,使饱和度峰值随水流速度增大而减小;倾斜度增大抑制污染源区PCE饱和度降低,使饱和度峰值随倾斜度增大而增大。 相似文献
9.
纳米镍/铁去除氯代烃影响因素的探讨 总被引:10,自引:0,他引:10
氯代烃是地下水中最常检出的有机污染物之一,传统的处理方法去除率很低。近年来随着铁还原技术的发展,纳米铁和纳米双金属也成为一个活跃的研究领域。利用批实验的研究方法以四氯乙烯(PCE)和四氯化碳(CT)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,在碱性条件下,纳米Ni/Fe对PCE脱氯速率比在酸性和中性条件下脱氯速率更快;纳米Ni/Fe对初始浓度为6·51mg/L的PCE溶液脱氯速率是对初始浓度为20·56mg/L的PCE溶液脱氯速率的1·8倍;对于氯代程度相同的CT和PCE,对CT的脱氯速率明显快于对PCE。 相似文献
10.
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
11.
四氯乙烯在不同地下水环境的生物共代谢降解 总被引:1,自引:0,他引:1
四氯乙烯是地下水中常见的污染物,采用生物方法进行处理的优点是可以实现无害化、无二次污染、处理成本低。四氯乙烯只能在厌氧条件下发生还原脱氯,目前对产甲烷环境下四氯乙烯的降解研究较多,而对较弱还原环境,如反硝化、铁锰还原和硫酸盐还原环境下四氯乙烯的脱氯行为研究甚少。本文采用批实验,研究了在不同地下水环境,包括反硝化、铁还原、硫酸盐还原、混合电子受体和天然地下水环境下四氯乙烯的脱氯性能。结果表明,铁还原环境的四氯乙烯脱氯效果最好,天然地下水环境次之,四氯乙烯的去除率分别达到91.34%和84.71%,四氯乙烯很快转化为三氯乙烯,并可以进一步转化为二氯乙烯,四氯乙烯的降解符合准一级反应动力学方程。在反硝化、硫酸盐还原、混合电子受体环境,四氯乙烯的去除以挥发为主,降解只占很小的比例,且最终的降解产物只有三氯乙烯。地下水中三价铁的存在,对于四氯乙烯脱氯起促进作用;而当地下水中硝酸盐和硫酸盐的浓度较高时,四氯乙烯脱氯受到抑制。 相似文献
12.
Microbial degradation of chloroethenes in groundwater systems 总被引:1,自引:0,他引:1
Paul M. Bradley 《Hydrogeology Journal》2000,8(1):104-111
The chloroethenes, tetrachloroethene (PCE) and trichloroethene (TCE) are among the most common contaminants detected in groundwater systems. As recently as 1980, the consensus was that chloroethene compounds were not significantly biodegradable in groundwater. Consequently, efforts to remediate chloroethene-contaminated groundwater were limited to largely unsuccessful pump-and-treat attempts. Subsequent investigation revealed that under reducing conditions, aquifer microorganisms can reductively dechlorinate PCE and TCE to the less chlorinated daughter products dichloroethene (DCE) and vinyl chloride (VC). Although recent laboratory studies conducted with halorespiring microorganisms suggest that complete reduction to ethene is possible, in the majority of groundwater systems reductive dechlorination apparently stops at DCE or VC. However, recent investigations conducted with aquifer and stream-bed sediments have demonstrated that microbial oxidation of these reduced daughter products can be significant under anaerobic redox conditions. The combination of reductive dechlorination of PCE and TCE under anaerobic conditions followed by anaerobic microbial oxidation of DCE and VC provides a possible microbial pathway for complete degradation of chloroethene contaminants in groundwater systems. Résumé Les chloroéthanes, tétrachloroéthane (PCE) et trichloroéthane (TCE) sont parmi les polluants les plus communs trouvés dans les aquifères. Depuis les années 1980, on considère que les chloroéthanes ne sont pas significativement biodégradables dans les aquifères. Par conséquent, les efforts pour dépolluer les nappes contaminées par des chloroéthanes se sont limités à des tentatives de pompage-traitement globalement sans succès. Des travaux ultérieurs ont montré que dans des conditions réductrices, des micro-organismes présents dans les aquifères peuvent, par réduction, dégrader les PCE et TCE en composés moins chlorés, comme le dichloréthane (DCE) et le chlorure de vinyl (VC). Bien que des études de laboratoire réalisées avec des micro-organismes adaptés aux composés halogénés montrent que la réduction complète en éthane est possible, dans la plupart des nappes la réaction de déchloration par réduction s'arrête apparemment au DCE et au VC. Cependant, des recherches récentes menées sur des sédiments d'un aquifère et d'alluvions ont démontré que l'oxydation microbienne de ces descendants réduits peut se produire de manière significative dans des conditions de redox anérobies. La déchloration par réduction de PCE et de TCE dans des conditions anérobies suivie par une oxydation microbienne anérobie des DCE et VC fournit une piste microbienne possible pour obtenir une dégradation complète des chloroéthanes polluants dans les aquifères. Resumen Los cloroetanos (tetracloroetano PCE y tricloroetano TCE) son contaminantes muy habituales en los acuíferos. Hasta 1980 se consideraba que los cloroetanos no eran biodegradables y, por tanto, los métodos de rehabilitación en acuíferos contaminados con cloroetanos se limitaban al pump-and-treat, generalmente con poco éxito. Posteriormente se vio que, en condiciones reductoras, algunos microorganismos pueden reducir PCE y TCE a unos subproductos menos clorados, como el dicloroetano (DCE) y el cloruro de vinilo (VC). Aunque estudios de laboratorio recientes sugieren que la reducción completa a etano es posible, en la mayoría de los sistemas acuíferos la decloración suele detenerse en los DCE o VC. Sin embargo, investigaciones más recientes en acuíferos y sedimentos fluviales demuestran que la oxidación microbiana de estos subproductos puede ser importante bajo condiciones redox anaerobias. La combinación de la reducción de PCE y TCE en condiciones anaerobias seguida de la oxidación microbiana anaerobia de DCE y VC proporciona un método potencial para la degradación total de los cloroetanos en los sistemas acuíferos. 相似文献
13.
冻融循环条件下生境基材中三种功能微生物数量变化规律研究 总被引:1,自引:1,他引:0
为揭示高寒地区典型生境基材中功能微生物数量变化的规律,以黄棕壤土为试验土样,在两种初始含水率条件下,分别制备客土、植被混凝土以及加菌植被混凝土三种不同类型的生境基材进行冻融循环模拟试验,探讨生境基材类型、初始含水率和冻融循环次数对基材中功能微生物数量的影响。试验结果显示:三种基材中功能微生物数量均受冻融循环影响显著,且随冻融循环次数增加总体呈"下降~上升~下降"趋势;冻融循环过程中,三种基材中功能微生物总量存在显著性差异,排序为:加菌植被混凝土 > 植被混凝土 > 客土,且固氮、解钾微生物数量显著低于解磷微生物;含水率为22%的基材中功能微生物总量普遍高于含水率为18%的基材。研究结果表明,加菌植被混凝土的肥力、抗冻性相比客土和植被混凝土有一定程度提升,但仍需对现有功能菌剂配方加以改进,以适应高寒地区冻融环境。 相似文献
14.
Mark Dyer Erwin van Heiningen Jan Gerritse 《Geotechnical and Geological Engineering》2000,18(4):313-334
Historic spillages of chlorinated hydrocarbons at a vinyl chloride plant in the Rotterdam–Botlek area in The Netherlands has lead to deep-seated pollution of the underlying aquifer. The principal pollutant is 1,2-dichloroethane (1,2-DCA). As a temporary measure, the contamination is being contained using a pump and treat system. In the long term, in-situ bioremediation has been proposed using a biologically active zone where pollutants would be dechlorinated by microorganisms that simultaneously degrade other carbon sources. In order to investigate the suitability of this new technology, a programme of laboratory tests was carried out. The laboratory programme involved a series of anaerobic soil column tests, where the selection and delivery of different carbon substrates that stimulated 1,2-DCA dechlorination were investigated. The soil columns were prepared using soil and groundwater samples from boreholes. Groundwater was flushed through the columns under anaerobic conditions. A comparison was made between the transformation of 1,2-DCA without a carbon substrate and in the presence of sugars (molasses) and alcohol (methanol) respectively. In addition, different modes of delivery were investigated. In the case of molasses, the material was injected into the column as a plug to simulate grout injection in the field, whereas methanol was delivered as a constant flow dissolved in the influent. Both carbon substrates resulted in the biotransformation of 1,2-DCA. However, fermentation of molasses produced secondary effects that led to a drop in pH and an excessive production of carbon dioxide, which temporarily blocked the flow of groundwater. 相似文献
15.
Christine A. PearcyDarren A. Chevis T. Jade HaugHolly A. Jeffries Ningfang YangJianwu Tang Deborah A. GrimmKaren H. Johannesson 《Applied Geochemistry》2011,26(4):575-586
Sediments from the Aquia aquifer in coastal Maryland were collected as part of a larger study of As in the Aquia groundwater flow system where As concentration are reported to reach levels as high as 1072 nmol kg−1, (i.e., ∼80 μg/L). To test whether As release is microbially mediated by reductive dissolution of Fe(III) oxides/oxyhydroxides within the aquifer sediments, the Aquia aquifer sediment samples were employed in a series of microcosm experiments. The microcosm experiments consisted of sterilized serum bottles prepared with aquifer sediments and sterilized (i.e., autoclaved), artificial groundwater using four experimental conditions and one control condition. The four experimental conditions included the following scenarios: (1) aerobic; (2) anaerobic; (3) anaerobic + acetate; and (4) anaerobic + acetate + AQDS (anthraquinone-2,6-disulfonic acid). AQDS acts as an electron shuttle. The control condition contained sterilized aquifer sediments kept under anaerobic conditions with an addition of AQDS. Over the course of the 27 day microcosm experiments, dissolved As in the unamended (aerobic and anaerobic) microcosms remained constant at around ∼28 nmol kg−1 (2 μg/L). With the addition of acetate, the amount of As released to the solution approximately doubled reaching ∼51 nmol kg−1 (3.8 μg/L). For microcosm experiments amended with acetate and AQDS, the dissolved As concentrations exceeded 75 nmol kg−1 (5.6 μg/L). The As concentrations in the acetate and acetate + AQDS amended microcosms are of similar orders of magnitude to As concentrations in groundwaters from the aquifer sediment sampling site (127-170 nmol kg−1). Arsenic concentrations in the sterilized control experiments were generally less than 15 nmol kg−1 (1.1 μg/L), which is interpreted to be the amount of As released from Aquia aquifer sediments owing to abiotic, surface exchange processes. Iron concentrations released to solution in each of the microcosm experiments were higher and more variable than the As concentrations, but generally exhibited similar trends to the As concentrations. Specifically, the acetate and acetate + AQDS amended microcosm typically exhibited the highest Fe concentrations (up to 1725 and 6566 nmol kg−1, respectively). The increase in both As and Fe in the artificial groundwater solutions in these amended microcosm experiments strongly suggests that microbes within the Aquia aquifer sediments mobilize As from the sediment substrate to the groundwaters via Fe(III) reduction. 相似文献
16.
采用液相还原法制备纳米铁粒子,粒径约为50 nm,主要成分为ɑ-Fe。实验研究了纳米铁还原高浓度硝基苯的效果及反应动力学。结果表明:自制的纳米铁具有很高的活性,短时间内能将高浓度硝基苯彻底还原,效果远优于普通铁粉。当摩尔比满足n纳米铁∶n硝基苯=4∶1时,纳米铁还原硝基苯属于一级反应动力学,反应速率常数和半衰期分别为0.159 3 h-1和4.351 2 h。整个实验过程中,ρ(DO)在0.5 mg/L以下,pH值约为9.0,体系呈弱碱性的厌氧环境,有利于厌氧微生物的生长。纳米铁反应后的产物为Fe6(OH)12CO3和MgFe3O4,且以Fe6(OH)12CO3为主。纳米铁反应后较以前比粒径变化不大,分散性较好,但表面被严重腐蚀。 相似文献
17.
LIU Fei HUANG Yuanying CUI Weihua 《《地质学报》英文版》2006,80(2):262-266
Chlorinated hydrocarbons are widely detected in groundwater, but conventional removal methodologies are not time-and-cost effective. With the development of iron reducing technology in recent years, research on nano-iron and nano-bimetal has become a hot spot. The paper presents the results of impact factors on perchloroethylene (PCE) removal by nano-Ni/Fe method. The data show that the reaction rate of unexposed nano-Ni/Fe is 4 times higher than exposed one; and temperature is one of the important controlling factors. Reaction rate constant KSA increases by 2-3 times with every 10℃ increment of temperature. Within a specific range, higher Ni/Fe ratio favors dechlorination process. When the Ni/Fe is 8%, the dechlorination process reaches the highest rate. Dissoved oxygen in the solution does not favor the degradation of chlorinated hydrocarbons. 相似文献
18.
In this paper, a stochastic collocation-based Kalman filter (SCKF) is developed to estimate the hydraulic conductivity from
direct and indirect measurements. It combines the advantages of the ensemble Kalman filter (EnKF) for dynamic data assimilation
and the polynomial chaos expansion (PCE) for efficient uncertainty quantification. In this approach, the random log hydraulic
conductivity field is first parameterized by the Karhunen–Loeve (KL) expansion and the hydraulic pressure is expressed by
the PCE. The coefficients of PCE are solved with a collocation technique. Realizations are constructed by choosing collocation
point sets in the random space. The stochastic collocation method is non-intrusive in that such realizations are solved forward
in time via an existing deterministic solver independently as in the Monte Carlo method. The needed entries of the state covariance
matrix are approximated with the coefficients of PCE, which can be recovered from the collocation results. The system states
are updated by updating the PCE coefficients. A 2D heterogeneous flow example is used to demonstrate the applicability of
the SCKF with respect to different factors, such as initial guess, variance, correlation length, and the number of observations.
The results are compared with those from the EnKF method. It is shown that the SCKF is computationally more efficient than
the EnKF under certain conditions. Each approach has its own advantages and limitations. The performance of the SCKF decreases
with larger variance, smaller correlation ratio, and fewer observations. Hence, the choice between the two methods is problem
dependent. As a non-intrusive method, the SCKF can be easily extended to multiphase flow problems. 相似文献
19.
一株硫酸盐还原菌的分离及生理生态特性的研究 总被引:3,自引:0,他引:3
硫酸盐有机废水生物处理技术一直是人们关注的热点,该种废水处理的关键是如何在有效地去除COD的同时,高效地去除SO_4~(2-)厌氧生物处理系统中的硫酸盐还原菌(Sulfte-Reducing Bacteria,SRB)在一定的条件下可以有效地将SO_4~(2-)还原而从废水中去除。产酸脱硫反应器是一个复杂的生态学系统,在这个生态系统中,SRB起着最主要的生态学作用,要研究产酸脱硫反应器中的各种群的微生物的生理生态学,是非常复杂而且难以实现的。为了更方便地研究产酸脱硫反应器中的微生物生理生态学,比较好的做法是把在反应器中数量上占优势,并且起主要功能的种群分离出来,对它们进行单独和配合研究。本实验就是利用滚管法和改进的Hungate技术,在COD/SO_4~(2-)=3的稳定阶段,对产酸脱硫反应器中的SRB进行了分离,分离出在数量上占优势的SRB,命名为SRB-ZH07。在厌氧试管和三角瓶中,进行了SRB-ZH07生理生态学研究。pH值对SRB-ZH07的生长和硫酸盐去除率的影响,pH为7.0左右SRB-ZH07的生长状况最好,在34h,菌液的OD_(600nm)达到0.827,而其它pH下的OD_(600nm)... 相似文献
