The technology of bioremediation is considered to be a preferred bacterial treatment with the oil - contaminated area of harbor in contrast with other treatments 提出石油污染生物修复技术研究的重点是好氧的原位生物修复技术。
The result of test shows that it is feasible to cultivate salt - resistant activated - sludge microorganism as the inoculation of bioremediation 研究结果表明可以驯化培养出耐盐的活性污泥微生物作为港口石油污染生物修复的接种物。
Especially , atmospheric deposition ( dry and wet ) , emissions of mercury from soil , bioremediation in situ for controlling mercury pollution are emphasized 其中重点介绍了大气汞的干湿沉降、土壤汞的释放及生物修复治理土壤汞污染。
The successful application of in - situ bioremediation will provide potential ways to clean up heavy metals and radionuclides in contaminated environments 现场的生物修复的成功应用将对清除污染环境中的重金属和辐射提供潜在方法。
Combining these ingredients enables us to better understand the relationships between the naturally occurring microorganisms and bioremediation processes 结合以上三方面,可以更好的了解自然中的微生物和生物修复过程之间的关系。
It is necessary to study aerobic treatment with in - situ bioremediation by means of inoculated microorganism and added nutrition and co - metabolism substrate 接种微生物、添加电子受体、营养盐和共代谢基质是生物修复的主要技术手段。
The results showed that co - metabolism and multi - strain mixture is probably more effective and feasible for bioremediation of pahs contaminated environments 此结果显示,共基质培养和多种菌株的混培在pahs污染的生物修复中可能更为有效可行。
This paper studied on bioremediation of the oil - contaminated area of harbor and analyzed the basic principle of the technology of bioremediation 本研究通过几种处理方法的对比,认为生物修复技术是治理港口水域石油污染的一项首选的清洁环保技术。
A . in situ bioremediation is typically limited by the amount of available oxygen . the more oxygen available , the faster the cleanup 答:这一点在就地生物修复过程中是最典型的。生物修复过程受到溶解氧量的制约,得到的溶解氧越多,生物清除速度越快。
Metal speciation and valence variation , transport processes , and microbial metabolism are three important ingredients for metal and radionuclide remediation 金属的种类和价态变化、转移过程以及微生物代谢作用是对金属和辐射生物修复的三种重要的组成部分。