共查询到18条相似文献,搜索用时 62 毫秒
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表面活性剂在多环芳烃污染土壤修复中的应用 总被引:4,自引:2,他引:4
介绍了单一表面活性剂(非离子表面活性剂、生物表面活性剂)、阴-非离子混合表面活性剂对多环芳烃的增溶作用、增溶机理及无机离子对表面活性剂增溶能力的影响,综述了化学表面活性剂和生物表面活性剂在污染土壤生物修复中的应用。由于生物表面活性剂具有许多独特的优点,今后应加强生物表面活性剂的开发与应用研究。 相似文献
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生物泥浆技术作为一种污染土壤生物修复技术,具有修复效率高、修复时间短及修复成本低等优点。本文介绍了生物泥浆修复设备的结构及修复工艺流程,例举了生物泥浆技术修复多环芳烃(PAHs)污染土壤的典型案例,探讨了生物泥浆技术修复PAHs污染土壤效果的主要影响因素:PAHs理化性质、PAHs污染浓度和污染时间、微生物、泥浆水土比、电子受体、传质过程等。展望了生物泥浆技术未来的发展方向:通过分子生物学工具监控、调节生物修复,促进泥浆内部微生物群落活动,有针对性地提高微生物对PAHs的修复能力。 相似文献
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吴燕芳 《再生资源与循环经济》2013,6(5)
目前,我国重金属污染呈现出长期积累和近期集中爆发、历史遗留问题和新出现问题相交织的特点,重金属污染在环境中存在多、形态多,整治重金属污染是一项长期、复杂、艰巨的任务.重金属污染物极难降解,尤其是存在于水和土壤中的重金属兼具富集性,是不可逆转的.重点阐述了重金属污染土壤的修复技术研究进展及发展前景. 相似文献
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Phillip La Mori Elgin Kirkland Harlan Faircloth Robert Bogert Mark Kershner 《补救:环境净化治理成本、技术与工艺杂志》2010,20(2):9-25
Thermal remediation of contaminated soils and groundwater by injection of hot air and steam using large‐diameter auger in situ soil mixing effectively remediates volatile and semivolatile organic compounds. This technology removes large amounts of contamination during the early treatment stages, but extended treatment times are needed to achieve high removal percentages. Combining thermal treatment with another technology that can be injected and mixed into the soil, and that continues to operate after removal of the drilling equipment, improves removal efficiency, and reduces cost. Using field‐determined pseudo first‐order removal rates, the cost of the combined remediation of chlorinated volatile organic compounds (CVOCs) by thermal treatment followed by reductive dechlorination by iron powder has been estimated as 57 percent of the cost of thermal treatment alone. This analysis was applied to a case‐study remediation of 48,455 cubic yards, which confirmed the cost estimate of the combined approach and showed over 99.8 percent removal of trichloroethene and other chlorinated VOCs. © 2010 Wiley Periodicals, Inc. 相似文献
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A laboratory pilot study of thermal decontamination of soils polluted by PCBs. Comparison with thermogravimetric analysis 总被引:2,自引:0,他引:2
Real soils contaminated with a mixture of polychlorinated biphenyls were thermally decontaminated in a laboratory scale thermal desorption apparatus, under different operating conditions including two operating pressures (P= 0.01 and 0.1 MPa), different sample masses (80-320 g), carrier gas flow rates (0-30-280 Nl h(-1)) and two initial contamination levels. A standard European soil artificially contaminated with 4-chlorobiphenyl was decontaminated using a thermogravimetric analyser (TGA). The same parametric study as cited earlier was performed. With both techniques, the extent of decontamination was studied as a function of temperature during the heating programs (2-3 degrees C min(-1) for the thermal desorption apparatus; 5 degrees C min(-1) for TGA). Only a few differences were noticed between the two techniques. The decontamination starts when the melting temperature of the contaminant is reached (30 degrees C) and is complete before 350 degrees C. Thermogravimetric analysis which does not necessitate any chemical analysis appears to be a very attractive technique to investigate the feasibility of a decontamination and to quickly determine the best operating conditions. 相似文献
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Use of fungal technology in soil remediation: A Case Study 总被引:4,自引:0,他引:4
Two white rot fungi Irpex lacteus and Pleurotus ostreatus and a PAH-degrading bacterial strain of Pseudomonas putida were used as inoculum for bioremediation of petroleum hydrocarbon-contaminated soil from a manufactured-gas-plant-area. Also two cocultures comprising a fungus with Pseudomonas putida were applied. After 10-week treatment out of 12 different PAHs, concentration of phenanthrene, anthracene, fluoranthene and pyrene decreased up to 66%. The ecotoxicity of the soil after bioremediation did not reveal any effect on the survival of Daphnia magna, a crustacian. However, the toxic effect on seed germination of plant Brassica
alba and oxidoreductase activity of bacterium Bacillus cereus decreased after 5 and 10 weeks of treatment. 相似文献
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The U.S. Environmental Protection Agency has developed regulations under the Hazardous and Solid Waste Amendments (HSWA) of 1984 to restrict the land disposal of hazardous wastes. As a result of the regulations, all hazardous wastes to be placed on the land must meet treatment standards based on the performance of the best demonstrated available technology (BDAT) identified for individual waste classifications. The Marathon Oil Company is currently evaluating innovative technologies for managing listed waste materials, with a focus on waste minimization and recycling. Remediation Technologies, Inc. (ReTeC) has conducted testing on wastewater treatment sludges from three Marathon refineries using a proprietary thermal desorption technology. The results from these tests have demonstrated that the technology has the ability to consistently meet BDAT treatment standards, while preferentially separating and condensing residual moisture and oils from the material. 相似文献
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Joong Kee Lee Dalkeun Park Byeong-Uk Kim Jong-In Dong Sangwha Lee 《Waste management (New York, N.Y.)》1998,18(6-8)
A novel type of fluidized bed desorber was developed for the remediation of petroleum-contaminated soils at low temperature with high efficiency. Cahn balance® was utilized to investigate the thermal desorption behavior of soils contaminated by various hydrocarbons. The performance of the fluidized-bed desorber was investigated at different operating modes. Batch operation of the fluidized-bed desorber exhibited 99.9% desorption efficiency at temperatures of ca. 300°C within a half hour. Continuous operation of the fluidized-bed indicated that Q/F (the ratio of the mass flow rate of fluidizing gas to feeding rate of contaminated soils) is less important at higher temperature (>300°C), if proper fluidization is ensured. The periodic operation of the fluidized bed desorber shows the possibility to reduce off-gas volume significantly. 相似文献
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The cost of remediation at hazardous waste sites is estimated at billions of dollars annually. It is imperative that more cost‐effective remediation technologies be developed, particularly to address the more complex megasites. Chlorinated hydrocarbons represent the major contaminants at many such sites. It has long been recognized that chlorinated hydrocarbons can be destroyed by photocatalytic oxidation. Traditional photocatalysts, however, have often shown inadequate destruction activity, a loss of activity over time, and poor selectivity, thereby producing substantial amounts of phosgene and chloroform by‐products. This article presents results obtained using novel photocatalyst compositions. The results demonstrate the ability to achieve high photocatalytic destruction activity for chlorinated hydrocarbons with full retention of activity over extended time periods and with complete elimination of phosgene and chloroform by‐products. © 2006 Wiley Periodicals, Inc. 相似文献
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The use and performance of soil vapor extraction (SVE) as an in-situ remedial technology has been limited at numerous sites because of both geologic and chemical factors. SVE systems are not well suited to sites containing low permeability soils or sites contaminated with recalcitrant compounds. Six-phase soil heating (SPSH) has been developed by the Battelle Pacific Northwest Laboratories (Battelle) to enhance SVE systems. The technology utilizes resistive soil heating to increase the vapor pressure of subsurface contaminants and to generate an in-situ source of steam. The steam strips contaminants sorbed onto soil surfaces and acts as a carrier gas, providing an enhanced mechanism by which the contaminants can reach an extraction well. Full-scale applications of SPSH have been performed at the U.S. Department of Energy's Savannah River Site in Aiken, South Carolina; at a former fire training site in Niagara Falls, New York; and at Fort Richardson near Anchorage, Alaska. At each site, chlorinated solvents were present in low permeability soils and SPSH was applied in conjunction with SVE. The results of the three applications showed that SPSH is a cost-effective technology that can reduce the time required to remediate a site using only conventional SVE. 相似文献