1) anaerobic uptake of phosphate
厌氧磷吸收
2) anaerobic fast-absorption
厌氧快速吸收
1.
New anaerobic fast-absorption process under alternative anaerobic/aerobic conditions based on non-steady state theory is described in this paper.
采用单级SB R反应器,分别对葡萄糖、乙酸钠配水及实际城市污水进行厌氧快速吸收试验,研究了以非稳态理论为基础的厌氧快速吸收新工艺在厌氧-好氧周期循环条件下有机物的厌氧快速吸收效果。
3) Biologicl phosphate release
厌氧放磷
4) anaerobic P-release
厌氧释磷
1.
Anaerobic P-release directly controls the total effect of bio-P removal in biological nutrient removal(BNR)processes.
以实验室动态生物营养物去除(BNR)工艺——BCFS(Biologisch Chemische Fosfaat Stikst of Verw ijdering)运行实验为基础,采用静态实验方法,研究了初始COD、碳源种类和厌氧释磷反应时间对厌氧释磷效果的影响。
5) anaerobic dephosphorization
厌氧除磷
1.
Identification of a novel anaerobic dephosphorization bacterial strain and its activity in phosphate removal under anaerobic condition;
一株新的厌氧除磷功能菌株的鉴定与活性
2.
Using sludge from concentrated pool as inoculum,a strain of anaerobic dephosphorization bacteria from the concentrated pool was isolated and identified through traditional and modern microbiological methods.
采用浓缩池污泥为细菌分离的种泥,利用传统和现代微生物的分离、鉴定相结合手段,分离出一株源于污泥浓缩池的厌氧除磷功能菌(NA菌),从细菌形态、生理生化和16S rDNA三方面确定了所得细菌的分类地位,利用静态厌氧反应对其进行厌氧除磷特性初探。
6) anaerobic phosphate release
厌氧释磷
1.
Phosphate recovery from EBPR excess sludge has great potential,so the vital problem focuses on the optimization of the parameters that affect anaerobic phosphate release of EBPR sludge in order to maximize the release of phosphate.
因此,优化影响EBPR污泥厌氧释磷的各项参数,使其能够最大程度的释放磷酸盐,是目前研究的重点。
2.
The process of anaerobic phosphate release in municipal sewage treated by MB (A2/O) craft and its influence factors were studied; and the mechanism and character were analyzed.
将MBR与A2/O工艺有机集成新型的MB(A2/O)组合工艺,考察了MB(A2/O)工艺处理城市污水的厌氧释磷过程及影响因素,并分析了其机理及特性。
补充资料:2-(10H-9-氧杂-10-磷杂-1-菲基)氢醌氧化磷
CAS:99208-50-1
中文名称:2-(10H-9-氧杂-10-磷杂-1-菲基)氢醌氧化磷
英文名称:2-(10H-9-Oxa-10-phospha-1-phenanthryl)hydroquinone phosphorus oxide
中文名称:2-(10H-9-氧杂-10-磷杂-1-菲基)氢醌氧化磷
英文名称:2-(10H-9-Oxa-10-phospha-1-phenanthryl)hydroquinone phosphorus oxide
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条