生物修复
- 网络bioremediation;in-situ bioremediation;Ex situ bioremediation
-
环境的PAHs污染及其生物修复技术研究进展
Pollution of Polycyclic Aromatic Hydrocarbons ( PAHs ) in Environment and Its Bioremediation
-
类Fenton氧化处理生物修复残留物
Elimination of Bioremediation Residues by Fenton-like Oxidation
-
地下水三氯乙烯(TCE)生物修复的研究进展
Foreign Progression on Trichloroethylene ( TCE ) Bioremediation in Groundwater
-
地下水中BTEX的原位生物修复研究进展
Progress of in-situ bioremediation of BTEX in groundwater
-
试验采用液可清(ACF32)对西坝河下游段进行生物修复。
Bioremediation experiment was conducted on the downstream segment of Xiba River by Aqua Clean ACF32 .
-
环境中污染物降解基因的水平转移(HGT)及其在生物修复中的作用
Horizontal Transfer of Environmental Pollutant - Degrading Gene and Application in Bioremediation
-
介绍了近年来多环芳烃污染物去除方法的研究现状,包括自然降解法、生物修复法、UV光解法、吸附法、高级氧化法及超声分解法等。
In this paper , the research situation about the removal techniques of PAHs including the natural degradation , bioremediation , UV photolysis , adsorption , advanced oxidation processes ( AOPs ) and sonolysis are introduced detailedly .
-
16SRRNA的变性梯度电泳(DGGE)结果揭示了生物修复过程中土壤微生物菌群结构中的动态变化。
Denaturing gradient gel electrophoresis ( DGGE ) of 16S rRNA genes revealed a dynamic change in the microbial community structure of the soil during bioremediation .
-
用生物修复技术来处理受铬污染的土壤,利用自然界中微生物,通过生物还原反应,将Cr(VI)还原成三价铬。
Chromium - contaminated soil is treated by bio - remediation technology in this paper . Using microorganisms in nature , Cr ( VI ) can be reduced to Cr (ⅲ) by bio - reducing reaction .
-
利用Soxhlet抽提重量法评价重质油污染土层生物修复的进程,并探讨了微生物活性与石油污染物生物降解之间的关系。
The bioremediation of the heavy-oils was evaluated by weighing after Soxhlet extraction to study the relationship between the microorganism activity and the hydrocarbon degradation .
-
采用吖啶橙荧光染色计数法和吸光度法,测定了不同温度、盐度、初始pH、溶解氧、接种量及不同培养基配方对虾池环境生物修复作用菌生长的影响。
Influences of temperature , salinity , pH , soluble oxygen , inoculation volume and composition of medium on the growth of functional bacteria in bioremediation of shrimp culture environment were studied with acridine orange direct count ( AODC ) and light absorption methods .
-
丛枝菌根真菌(Glomuscaledonium)对铜污染土壤生物修复机理初探
Influence of arbuscular mycorrhizal fungus ( Glomus caledonium ) on maize seedlings grown in copper contaminated soil
-
在第二章中,本文提出建立细胞模型,用MTT比色法研究高强度Nd:YAG和KTP倍频激光照射对单层人成纤维细胞的损伤及其生物修复过程。
In the second part , with the help of MTT assay , monolayer human skin fibroblasts were used as models to study the damage effects of Nd : YAG and KTP laser irradiation .
-
综上所述,该染料厂的可能修复技术为生物修复、填埋、焚烧、MCD和热脱附等。
To conclude , the possible remediation technologies for this dye plant are biological remediation , landfill treatment , incineration , MCD , thermal desorption and etc.
-
以玉米秸秆粉为原料经固体发酵制成T2-2生物修复剂;
We prepared T2-2 bioremediation agents from crop straw through solid fermentation .
-
生物修复(Bioremediation)是近年来发展起来的用于治理环境污染的一门新技术,它主要是通过微生物的作用将环境中的有机污染物转化为CO2和H2O等无毒无害或毒性较小的物质。
Bioremediation is a new technology of controlling environmental pollution in recent years . It can change organic pollutants of the environment into harmless CO2 and H2O and other non-toxic or less toxic substances through the role of microorganisms .
-
异化Fe(III)还原微生物具有强大的代谢功能,可还原许多有毒重金属包括一些放射性核素,还可降解利用许多有机污染物,在污染环境的生物修复中具有重要的应用价值。
It has been found this multifunctional groups of microorganisms evolved with diverse metabolic ability reducing a variety of toxic heavy metals including some radioactive nuclear , degrading and utilizing a broad range of organic pollutants and showed an important value in the bioremediation of contaminated environment .
-
因而曲霉G21具备有机磷农药污染环境生物修复潜在的应用前景。
Therefore , the Aspergillus G21 has the application potential in the bioremediation of contaminated environment by organophosphates pesticides .
-
两次实验说明,菌株F2006为降解胶质和沥青质的优势菌株,在生物修复中具有较好的应用前景。
F2006 is the excellent microorganism to biodegrade resin and asphaltene and possess of good application prospect in bioremediation engineering .
-
此外,生物修复还可以显著地减少水中微型藻的细胞含量,对微型藻的抑制效率超过82%。就环境适应性而言,Spirogyra优于Cladophora。
Moreover , the concentration of microalgae may be decreased by more than 82 % . For adaptability to environment , Spirogyra is superior to Cladophora .
-
依据太湖底泥的污染特性,疏浚深度以40~50cm为宜,并应为后续生物修复技术介入创造必要的生态环境条件。
According to the characteristics of sediment pollution in Taihu Lake , the appropriate depth of dredging is 40 & 50 ? cm , and the dredging should create necessary environmental condition for the following ecosystem restoration .
-
生物修复的生物强化技术是治理石油烃污染的重要方法。
Bioaugmentation technology is the main method in bioremeding petroleum pollution .
-
黄瓜连作障碍因子分析及其生物修复措施探讨
Factors Analysis of Continuous Cucumber Cropping Obstacle and Its Preparatory Bioremediation
-
辽河油田石油污染土壤的2阶段生物修复
Two Phases Bioremediation of Oil Contaminated Soil from Liaohe Oil Field
-
细菌对环境污染物的趋化性及其在生物修复中的作用
Bacterial chemotaxis to environmental pollutants and it 's significance in bioremediation
-
地下水有机污染的生物修复技术及应用
Bioremediation technology for groundwater contaminated by organic pollutants and its application
-
中原油田石油污染土壤生物修复技术研究
Research on Bioremediation of Petroleum Contaminated Soils in Zhongyuan Oil Field
-
污染土壤原位生物修复中的多相流动传输特性
Multiphase Flow and Transport Characteristic in In-Situ Bioremediation of Contaminative Soil
-
金属结合蛋白(肽)与环境重金属生物修复
Metal-binding Proteins or Peptides in the Bioremediation of Environmental Heavy Metals
-
低温微生物及其在生物修复领域中的应用
Application Prospects in the Study on Bioremediation by Cold - Microorganisms