Bioaugmentation is a highly efficient biotechnology and has a bright future in wastewater treatment.
生物强化技术是一种生物治理废水的高效技术,在废水治理中具有广阔的应用前景。
In the experimental condition, Bioaugmentation technology was used to treat coking-plant wastewater in the activated sludge process.
在实验室条件下,将生物强化技术运用于活性污泥处理焦化废水中。
The bioaugmentation of flocculant-producing microbes to domestic sewage treatment was explored by introducing the microbes to activated sludge.
将产絮凝剂微生物引入活性污泥中,研究产絮凝剂微生物强化处理生活污水的效果。
Fish mortality and disease can be reduced to less than 10% by combing an ADS system with biofiltration and bioaugmentation of beneficial bacteria.
将益生菌生物过滤和生物强化与ADS系统结合,鱼类死亡率和患病率可减少到不足10%。
Bioaugmentation, which use selected microbes to degrade organic compounds, can combine with different treating systems to remove some objective pollutant.
生物强化技术可以充分发挥微生物的降解能力,它可以与不同的处理系统相结合,针对性地去除某种或某类目标污染物。
The invention adopts the bioaugmentation technology, greatly improves the capability of treating salinity wastewater and has low cost and significant effects.
本发明采用生物强化技术,大大提高含盐废水处理能力,成本低,效果显著。
The principle of bioaugmentation is presented. Its application examples and effects in treatment of refractory organic pollutants at home and abroad are summarized.
阐述了生物强化技术的原理,概括了国内外有关生物强化技术处理难降解有机污染物的应用实例及效果。
Some technologies to treat azo dye wastewater are introduced in this paper, especially the characters and application of genetic engineering technology and bioaugmentation.
本文综述了处理偶氮染料废水的多种方法,详细介绍了基因工程技术和生物强化方法的特点及其在废水处理中的应用。
The experiment of soil bioremediation illustrates that bioaugmentation is effective by inoculating bacterium GF31 with the advantage of competition growth to the indigenous microorganisms.
对土壤进行生物修复的实验结果初步表明,菌株gf31具有与土著微生物竞争生长的优势,并能有效去除氯氰菊酯。
The experiment of soil bioremediation illustrates that bioaugmentation is effective by inoculating bacterium GF31 with the advantage of competition growth to the indigenous microorganisms.
对土壤进行生物修复的实验结果初步表明,菌株gf31具有与土著微生物竞争生长的优势,并能有效去除氯氰菊酯。
应用推荐