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Applications of Monitored Natural Attenuation in Contaminated Soil and Groundwater 被引量:1
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作者 Li Xiaoping Cheng Xi 《Meteorological and Environmental Research》 CAS 2014年第5期31-35,共5页
Restoration of contaminated soil and groundwater could be divided into two phases. The first phase takes aim at reducing human being's health risks by active remediation, while the second phase aims at eliminating ec... Restoration of contaminated soil and groundwater could be divided into two phases. The first phase takes aim at reducing human being's health risks by active remediation, while the second phase aims at eliminating ecological risks by natural attenuation (NA). Because of cost-effective and sustainable cleanup, monitored natural attenuation (MNA) and enhanced natural attenuation (ENA) have been gaining more attention recently, especially in the respects of ecological risk-oriented contaminated land management and a follow-up measure after active remediation. The uses and procedures of MNA for contaminated site cleanup and remediation in USA and EU were introduced firstly, and then possible applications of MNA in China were suggested. More developments and practices of MNA and ENA for managing contaminated sites in China are expected. 展开更多
关键词 Contaminated soil Contaminated groundwater Monitored natural attenuation APPLICATION China
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Groundwater contamination and natural attenuation capacity at a petroleum spilled facility in Korea 被引量:3
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作者 Hyun-Mi Choi Jin-Yong Lee 《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2011年第10期1650-1659,共10页
As a remedial option, the natural attenuation capacity of a petroleum contaminated groundwater at a military facility was examined. Hydrogeological conditions, such as high water level, permeable uppermost layer and f... As a remedial option, the natural attenuation capacity of a petroleum contaminated groundwater at a military facility was examined. Hydrogeological conditions, such as high water level, permeable uppermost layer and frequent heavy rainfall, were favorable to natural attenuation at this site. The changes in the concentrations of electron acceptors and donors, as well as the relevant hydrochemical conditions, indicated the occurrence of aerobic respiration, denitrification, iron reduction, manganese reduction and sulfate reduction. The calculated BTEX expressed biodegradation capacity ranged between 20.52 and 33.67 mg/L, which appeared effective for the reduction of the contaminants levels. The contribution of each electron accepting process to the total biodegradation was in the order: denitrification 〉 iron reduction 〉 sulfate reduction 〉 aerobic respiration 〉 manganese reduction. The BTEX and benzene point attenuation rates were 0.0058-0.0064 and 0.0005-0.0032 day-1, respectively, and the remediation time was 0.7-1.2 and 2.5-30 years, respectively. The BTEX and benzene bulk attenuation rates were 8.69 × 10^-4 and 1.05 × 10^-3 day-l, respectively, and the remediation times for BTEX and benzene were 7.2 and 17.5 years, respectively. However, most of the natural attenuation occurring in this site can be attributed to dilution and dispersion. Consequently, the biodegradation and natural attenuation capacities were good enough to lower the contaminants levels, but their rates appeared to be insufficient to reach the remediation goal within a reasonable time frame. Therefore, some active remedial measures would be required. 展开更多
关键词 petroleum contaminated site BTEX electron acceptor expressed biodegradation capacity natural attenuation
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Natural water purification and water management by artificial groundwater recharge 被引量:6
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作者 Klaus-Dieter BALKE 《Journal of Zhejiang University-Science B(Biomedicine & Biotechnology)》 SCIE CAS CSCD 2008年第3期221-226,共6页
Worldwide,several regions suffer from water scarcity and contamination.The infiltration and subsurface storage of rain and river water can reduce water stress.Artificial groundwater recharge,possibly combined with ban... Worldwide,several regions suffer from water scarcity and contamination.The infiltration and subsurface storage of rain and river water can reduce water stress.Artificial groundwater recharge,possibly combined with bank filtration,plant purification and/or the use of subsurface dams and artificial aquifers,is especially advantageous in areas where layers of gravel and sand exist below the earth's surface.Artificial infiltration of surface water into the uppermost aquifer has qualitative and quantitative advantages.The contamination of infiltrated river water will be reduced by natural attenuation.Clay minerals,iron hydroxide and humic matter as well as microorganisms located in the subsurface have high decontamination capacities.By this,a final water treatment,if necessary,becomes much easier and cheaper.The quantitative effect concerns the seasonally changing river discharge that influences the possibility of water extraction for drinking water purposes.Such changes can be equalised by seasonally adapted infiltration/extraction of water in/out of the aquifer according to the river discharge and the water need.This method enables a continuous water supply over the whole year.Generally,artificially recharged groundwater is better protected against pollution than surface water,and the delimitation of water protection zones makes it even more save. 展开更多
关键词 Artificial groundwater recharge natural attenuation Water management
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Problems of drinking water treatment along Ismailia Canal Province, Egypt
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作者 Mohamed H.GERIESH Klaus-Dieter BALKE Ahmed E.EL-RAYES 《Journal of Zhejiang University-Science B(Biomedicine & Biotechnology)》 SCIE CAS CSCD 2008年第3期232-242,共11页
The present drinking water purification system in Egypt uses surface water as a raw water supply without a preliminary filtration process.On the other hand,chlorine gas is added as a disinfectant agent in two steps,pr... The present drinking water purification system in Egypt uses surface water as a raw water supply without a preliminary filtration process.On the other hand,chlorine gas is added as a disinfectant agent in two steps,pre-and post-chlorination.Due to these reasons most of water treatment plants suffer low filtering effectiveness and produce the trihalomethane(THM) species as a chlorination by-product.The Ismailia Canal represents the most distal downstream of the main Nile River.Thus its water contains all the proceeded pollutants discharged into the Nile.In addition,the downstream reaches of the canal act as an agricultural drain during the closing period of the High Dam gates in January and February every year.Moreover,the wide industrial zone along the upstream course of the canal enriches the canal water with high concentrations of heavy metals.The obtained results indicate that the canal gains up to 24.06×106 m3 of water from the surrounding shallow aquifer during the closing period of the High Dam gates,while during the rest of the year,the canal acts as an influent stream losing about 99.6×106 m3 of its water budget.The reduction of total organic carbon(TOC) and suspended particulate matters(SPMs) should be one of the central goals of any treatment plan to avoid the disinfectants by-products.The combination of sedimentation basins,gravel pre-filtration and slow sand filtration,and underground passage with microbiological oxidation-reduction and adsorption criteria showed good removal of parasites and bacteria and complete elimination of TOC,SPM and heavy metals.Moreover,it reduces the use of disinfectants chemicals and lowers the treatment costs.However,this purification system under the arid climate prevailing in Egypt should be tested and modified prior to application. 展开更多
关键词 Drinking water treatment Hazardous by-products natural attenuation Ismailia Canal EGYPT
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Soil Quality Evaluation of Hydrocarbon Polluted Parcels
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作者 Margarita Teutli León Marco Antonio Cruz Gómez +1 位作者 José Castillo Román Andrés Sánchez 《Journal of Geoscience and Environment Protection》 2022年第9期27-41,共15页
For hydrocarbon polluted soils that underwent bioremediation it is important to assess its condition after a period of time, but it is more useful when there is an opportunity of comparison against an unpolluted soil ... For hydrocarbon polluted soils that underwent bioremediation it is important to assess its condition after a period of time, but it is more useful when there is an opportunity of comparison against an unpolluted soil and an untreated polluted one. This paper provides a comparison of three adjacent parcels, being the first clean, the second polluted and bioremediated, the third polluted and left to natural attenuation. Study was conducted determining pH, electrical conductivity, carbonates, soil organic matter, chemical oxygen demand, eight anions, and twelve metals. Data were compared against those references for agricultural soils found in the Mexican NOM-021. A Pearson correlation was applied to find coincidences between the three parcels, obtained results allowed to say that bioremediated parcel allowed for most uniform pH, negligible salinity risk, and medium content of soil organic matter, but treatment has enabled heavy metal accumulation since its values are higher in respect to the other parcels. Natural attenuated parcel has some spots with lower pH, a moderately saline risk, a high content of soil organic matter, and lower content of heavy metals. The clean or unaffected parcel exhibit the higher pH values, a slightly saline condition, soil organic matter ranges from high to very high content, heavy metals content is medium, but no reaching dangerous levels. An important assessment is that bioremediation has enhanced the bioavailability of soil organic matter but it is not similar to the values in the unpolluted parcel. 展开更多
关键词 Soil Quality Hydrocarbon Pollution Soil Unpolluted BIOREMEDIATION natural attenuation
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Natural Biodegradation of Phenolic Compounds in Groundwater
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作者 David N. Lerner, Steven F. ThorntonDepartment of Civil and Structural Engineering, University of Sheffield, Mappin Street., Sheffield, S1 3JD, UK 《Tsinghua Science and Technology》 EI CAS 2000年第3期315-322,共8页
A combination of field data and theoretical approaches is used to assess the natural attenuation and status of a complex plume of phenolic compounds (phenol, cresols, xylenols) in a deep, consolidated, UK Permo Trias... A combination of field data and theoretical approaches is used to assess the natural attenuation and status of a complex plume of phenolic compounds (phenol, cresols, xylenols) in a deep, consolidated, UK Permo Triassic sandstone aquifer. Biodegradation of the phenolic compounds at concentrations up to 12500mg·L -1 is occurring under aerobic, NO - 3 reducing, Mn/Fe reducing, SO 2- 4 reducing and methanogenic conditions in the aquifer, with the accumulation of inorganic and organic metabolites in the plume. An electron and carbon balance for the plume suggests that only 6% of the source term has been degraded in 50 years. The residual contaminant mass in the plume significantly exceeds estimates of electron acceptor inputs, indicating that the plume will grow. Two detailed vertical profiles through the plume show that contaminant distributions are controlled more by source history than by biodegradation processes. Microbiological and mass balance studies show that biodegradation is greatest at the plume fringe where contaminant concentrations are diluted by transverse mixing. Active bacterial populations exist throughout the plume but biodegradation is inhibited in the plume core by high contaminant concentrations. Stable isotope studies show that SO 2- 4 reduction is particularly sensitive to contaminant concentration. The aquifer is not oxidant deficient but natural attenuation of the phenolic compounds in this system is limited by toxicity from the pollutant load and the bioavailability of electron acceptors. Natural attenuation of these contaminants will increase only after increased dilution of the plume. 展开更多
关键词 natural attenuation complex plume BIODEGRADATION
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Control of petroleum-hydrocarbon contaminated groundwater by intrinsic and enhanced bioremediation 被引量:4
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作者 Chih-Ming Kao Rao Y.Surampalli Mu-Sheng Lee 《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2010年第6期864-871,共8页
In the first phase of this study, the effectiveness of intrinsic bioremediation on the containment of petroleum hydrocarbons was evaluated at a gasoline spill site. Evidences of the occurrence of intrinsic bioremediat... In the first phase of this study, the effectiveness of intrinsic bioremediation on the containment of petroleum hydrocarbons was evaluated at a gasoline spill site. Evidences of the occurrence of intrinsic bioremediation within the BTEX (benzene, toluene, ethylbenzene, and xylenes) plume included (1) decreased BTEX concentrations; (2) depletion of dissolved oxygen (DO), nitrate, and sulfate; (3) production of dissolved ferrous iron, methane, and CO2; (4) deceased pH and redox potential; and (5) increased methanogens, total heterotrophs, and total anaerobes, especially within the highly contaminated areas. In the second phase of this study, enhanced aerobic bioremediation process was applied at site to enhance the BTEX decay rates. Air was injected into the subsurface near the mid-plume area to biostimulate the naturally occurring microorganisms for BTEX biodegradation. Field results showed that enhanced bioremediation process caused the change of BTEX removal mechanisms from anaerobic biodegradation inside the plume to aerobic biodegradation. This variation could be confirmed by the following field observations inside the plume due to the enhanced aerobic bioremediation process: (1) increased in DO, CO2, redox potential, nitrate, and sulfate, (2) decreased in dissolved ferrous iron, sulfide, and methane, (3) increased total heterotrophs and decreased total anaerobes. Field results also showed that the percentage of total BTEX removal increased from 92% to 99%, and the calculated total BTEX first-order natural attenuation rates increased from 0.0092% to 0.0188% per day, respectively, after the application of enhanced bioremediation system from the spill area to the downgradient area (located approximately 300 m from the source area). 展开更多
关键词 petroleum hydrocarbon GROUNDWATER natural attenuation intrinsic bioremediation
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Assessment of aerobic biodegradation of lower-chlorinated benzenes in contaminated groundwater using field-derived microcosms and compound-specific carbon isotope fractionation 被引量:2
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作者 Alba Trueba-Santiso Jordi Palau +2 位作者 Jesica M.Soder-Walz Teresa Vicent Ernest Marco-Urrea 《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2022年第8期204-213,共10页
Biodegradation of lower chlorinated benzenes(tri-, di-and monochlorobenzene) was assessed at a coastal aquifer contaminated with multiple chlorinated aromatic hydrocarbons. Field-derived microcosms, established with g... Biodegradation of lower chlorinated benzenes(tri-, di-and monochlorobenzene) was assessed at a coastal aquifer contaminated with multiple chlorinated aromatic hydrocarbons. Field-derived microcosms, established with groundwater from the source zone and amended with a mixture of lower chlorinated benzenes, evidenced biodegradation of monochlorobenzene(MCB) and 1,4-dichlorobenzene(1,4-DCB) in aerobic microcosms,whereas the addition of lactate in anaerobic microcosms did not enhance anaerobic reductive dechlorination. Aerobic microcosms established with groundwater from the plume consumed several doses of MCB and concomitantly degraded the three isomers of dichlorobenzene with no observable inhibitory effect. In the light of these results, we assessed the applicability of compound stable isotope analysis to monitor a potential aerobic remediation treatment of MCB and 1,4-DCB in this site. The carbon isotopic fractionation factors(ε) obtained from field-derived microcosms were-0.7‰ ± 0.1 ‰ and-1.0‰ ± 0.2 ‰ for MCB and1,4-DCB, respectively. For 1,4-DCB, the carbon isotope fractionation during aerobic biodegradation was reported for the first time. The weak carbon isotope fractionation values for the aerobic pathway would only allow tracing of in situ degradation in aquifer parts with high extent of biodegradation. However, based on the carbon isotope effects measured in this and previous studies, relatively high carbon isotope shifts(i.e., Δδ13C > 4.0 ‰) of MCB or 1,4-DCB in contaminated groundwater would suggest that their biodegradation is controlled by anaerobic reductive dechlorination. 展开更多
关键词 GROUNDWATER Isotope fractionation CHLOROBENZENES Aerobic biodegradation Anaerobic reductive dehalogenation natural attenuation
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Transport and Degradation of Phenol in Groundwater at Four Ashes
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作者 李广贺 张旭 +1 位作者 S.F.Thornton D.N.Lerner' 《Tsinghua Science and Technology》 EI CAS 2000年第3期293-297,共5页
Drift deposits and Triassic Sandstone of the Bromsgrove and Wildmoor Formations, 700m thick, form the main aquifers at Four Ashes. The coal tar and products from early plant and tank storage facilities constructed ove... Drift deposits and Triassic Sandstone of the Bromsgrove and Wildmoor Formations, 700m thick, form the main aquifers at Four Ashes. The coal tar and products from early plant and tank storage facilities constructed over unprotected ground directly and indirectly caused significant groundwater pollution. The organic pollutants include phenol, cresol, and xylenol. The maximum phenol concentration in the groundwater reached 12000mg/L, with an average of 1300mg/L, which accounts for 40%60% of the total organic contaminants. Three computer codes, Visual Modflow, MT3D, and BioRedox, which solute transport model to groundwater flow were used to simulate and predict the distribution, transport, and degradation of phenol in the polluted groundwater. Over about 46 years, the phenol moved from the pollutant source to the plume front and it will take 220 years to reach the main pumping wells. The BioRebox model was used to simulate the aerobic, sulfidogenic, nitrate reducing, ferrogenic, manganogenic, and methanogenic zones. The residual mass in the groundwater will decrease from 1600 t to 400 t by the year 2080, with 80% of total phenol eventually lost with maximum concentration declining from 15000mg/L to 2000mg/L. 展开更多
关键词 Four Ashes coal tar PHENOL natural attenuation BioRedox model
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