共查询到19条相似文献,搜索用时 218 毫秒
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植物及微生物联合修复石油-重金属复合污染土壤具有很大的潜力。但重金属以不同形态存在关系到石油-重金属复合污染土壤生物修复过程中,植物、微生物的修复效率以及是否需要增加辅助工程解决重金属污染等问题,因此石油-重金属复合污染土壤修复过程中就必须考虑重金属有效态及形态的变化特征。 相似文献
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通过对秦皇岛地区土壤环境中六六六残留量的调查监测,分析了秦皇岛地区土壤六六六污染现状和危害。建议应加强农药规范化管理,制定土壤生物修复计划,大力开发生物和物理防治技术以降低土壤环境中的六六六残留量,减少对人类和生物的影响。 相似文献
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探讨了土壤中重金属的来源、特点以及生态效应,综述了土壤重金属污染的植物修复技术,展望了重金属污染土壤的植物修复研究发展趋势。 相似文献
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概述了目前国内外石油污染土壤常用的修复技术及其研究进展,综述了物理修复、化学修复,特别是生物修复技术的优越性,并针对国内外石油污染土壤修复技术研发和实际应用过程中存在的问题,提出加强研发污染土壤综合修复技术、完善修复工程设计、加大新型功能材料的开发和应用力度、加强分子生态学技术在污染土壤修复中的应用4项建议。 相似文献
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重金属污染土壤的修复方法及其在几类典型土壤修复中的应用 总被引:3,自引:0,他引:3
文中首先阐述了重金属污染土壤的途径与特点。介绍了当前几类主要的重金属污染土壤修复方法:物理化学方法、植物修复法、微生物修复法、动物修复法等的技术要点,详述了各自的技术特点及机理,并对它们的修复效能、环境友好性等进行了比较。从土壤的特性出发,区分出了3种典型的遭受重金属污染的土壤:农业土壤、城市土壤、矿区土壤,并从国内外最新的重金属污染修复实践中选取了适合各自土壤类型的修复方法进行了重金属污染土壤的治理探讨。最后,对土壤重金属污染修复技术的发展进行了展望。 相似文献
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轻质油污染土壤的原位修复技术现场试验 总被引:2,自引:1,他引:1
石油烃污染土壤具有生态风险高、治理难度大、治理成本高等特点,技术经济性优异的原位修复方法及装备开发已成为现阶段石油环境工程领域的研究热点.文章针对汽油、柴油等轻质油品(Light Petroleum-Hydrocarbons,LPHs)污染的土壤,设计出1套复合了土壤真空抽吸(Soil Vacuum Extraction,SVE)与生物通风(Bioventing,BV)功能的撬装式原位修复技术设备样机,并对某轻质油污染土壤进行了现场修复试验.在6个月的修复周期内,现场土壤中平均VOCs浓度由823.7 mg/L降至51.0 mg/L,修复效率平均达到80%以上,可为我国规模化实施LPHs污染土壤修复提供技术支持和应用依据. 相似文献
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农药的大量使用污染了大气、水体及生态系统。有机农药以直接施用、拌种、喷撒、随降水落入等方式进入土壤。农药在土壤中会以吸附、扩散稀释和降解等几种方式发生转化,并改变土壤结构、对土壤中生物的生存及酶的活性产生影响。生物修复技术可以通过动植物、微生物及根际环境对农药污染的降解来治理土壤中的农药,是治理农药污染的一种推荐方法。 相似文献
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This paper presents a hybrid technology of soil remediation based on the integration of biodegradation and electroosmosis. We employed soils with different texture (clay soil and loamy sand) containing a mixture of polycyclic aromatic hydrocarbons (PAH) present in creosote, and inoculation with a representative soil bacterium able to degrade fluorene, phenanthrene, fluoranthene, pyrene, anthracene, and benzo[a]pyrene. Two different modes of treatment were prospected: (i) inducing in soil the simultaneous occurrence of biodegradation and electroosmosis in the presence of a biodegradable surfactant, and (ii) treating the soils sequentially with electrokinetics and bioremediation. Losses of PAH due to simultaneous biodegradation and electroosmosis (induced by a continuous electric field) were significantly higher than in control cells that contained the surfactant but no biological activity or no current. The method was especially successful with loamy sand. For example, benzo[a]pyrene decreased its concentration by 50% after 7 d, whereas 22 and 17% of the compound had disappeared as a result of electrokinetic flushing and bioremediation alone, respectively. The use of periodical changes in polarity and current pulses increased by 16% in the removal of total PAH and in up to 30% of specific compounds, including benzo[a]pyrene. With the aim of reaching lower residual levels through bioremediation, an electrokinetic pretreatment was also evaluated as a way to mobilize the less bioaccessible fraction of PAH. Residual concentrations of total biodegradable PAH, remaining after bioremediation in soil slurries, were twofold lower in electrokinetically pretreated soils than in untreated soils. The results indicate that biodegradation and electroosmosis can be successfully integrated to promote the removal of PAH from soil. 相似文献
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油污土壤生物修复实验研究 总被引:1,自引:0,他引:1
为了有效预防和治理因石油开采、运输等造成的土壤污染,对大庆地区油污土壤进行了生物修复的实验研究,通过室内盆栽模拟实验,对芦苇和香蒲根际土壤的石油类污染物总含量、石油烃类组分浓度、非烃组分浓度进行了测定。结果表明,芦苇和香蒲对石油类污染物具有比较明显的降解作用,可以使被污染土壤中的某些油污成分逐渐被选择性消耗。实验还可看出,芦苇和香蒲对石油类污染物中正构烷烃的降解能力高于非正构烃。总体看,芦苇对石油类污染物的降解能力强于香蒲,但芦苇对非正构烃的降解能力略逊于香蒲。 相似文献
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污染场地修复技术的种类 总被引:3,自引:1,他引:3
本文旨在归纳总结目前国内外对污染场地的修复的各种技术。认为场地修复通常包括污染土修复和含水层净化等2个方面。污染土常见的处理技术目前大致可归纳为6类,即微生物修复技术、化学处理技术、物理分离技术、固化/安定化技术、高温处理技术、植物修复技术等。而污染地下水的修复方法主要有5项:注气法、原位微生物修复技术、两相蒸气提取法、原位氧化法、原位反应墙技术等。 相似文献
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Bioaccessibility is one of the most relevant aspects to be considered in the restoration of soils using biological technologies. Polycyclic aromatic hydrocarbons (PAH) usually have residual fractions that are resistant to biodegradation at the end of the biological treatment. In some situations, these residual concentrations could still be above legal standards. Here, we propose that the available knowledge about electroremediation technologies could be applied to enhance bioremediation of soils polluted with PAH. The main objective of this study was to show that a previous electrokinetic treatment could reduce the PAH residual fractions when the soil is subsequently treated by means of a bioremediation process. The approach involved the electrokinetic treatment of PAH-polluted soils at a potential drop of 0.9 to 1.1 V/cm and the subsequent estimations of bioaccessibility of residual PAHs after slurry-phase biodegradation. Bioaccessibility of PAH in two creosote-polluted soils (clay and loamy sand, total PAH content averaging 300 mg/kg) previously treated with an electric field in the presence of nonionic surfactant Brij 35 was often higher than in untreated controls. For example, total PAH content remaining in clay soil after bioremediation was only 62.65 +/- 4.26 mg/kg, whereas a 7-d electrokinetic pretreatment had, under the same conditions, a residual concentration of 29.24 +/- 1.88 mg/kg after bioremediation. Control treatments without surfactant indicated that the electrokinetic treatment increased bioaccessibility of PAHs. A different manner of electric field implementation (continuous current vs. current reversals) did not induce changes in PAH bioaccessibility. We suggest that this hybrid technology may be useful in certain bioremediation scenarios, such as soils rich in clay and black carbon, which show limited success due to bioavailability restrictions, as well as in highly heterogeneous soils. 相似文献