具有良好的脱氮除磷效果。
对此,我们提出了生物除磷动态模型的构建。
In this regard, we have introduced a dynamic model of biological phosphorus removal Construction.
污水的除磷有生物法和药剂强制去除法两大类。
The removal of phosphorus from wastewater consists of biological removal method and compelled chemical removal method.
本文研究了生物除磷过程中乙酸盐厌氧代谢机理。
In this study, the anaerobic acetate metabolism was investigated in the biological phosphorus removal process.
生物脱氮除磷工艺的研究和应用工作日益得到重视。
The research and practical appliance of biological nitrogen and phosphorus removal technology is gradually deserved appreciation.
采用化学法除磷与SBR相结合的工艺处理汽车废水。
A combination process with chemical method for phosphorus removal and SBR was applied to mobile wastewater treatment.
该系统能够完成高压除磷喷嘴的流量-压力、打击力特性测试。
The system is able to complete the high-pressure descaling spray flow - pressure, hitting power characteristics of test.
在有无外加电场的情况下,对生物除磷的动力学参数进行了比较。
The dynamic parameters of biological phosphorus removal were compared under the conditions with or without elec.
利用惰性电极形成的外加电场对强化生物除磷的效果进行了研究。
The effects of enhanced biological phosphorus removal with electric field formed by inert electrode were studied.
交替曝气时间是影响新型两级生物滤池工艺除磷效果的关键因素。
The length of alternate aeration influences phosphorus removal in the alternately aerated two-stage biofilter.
浮选钨精矿经过酸浸除磷、碳酸盐后,获得混合钨精矿品位为70。
The floatation tungsten concentrate is treated by acid pickling to remove phosphonium and carbonate, and its final concentrate is 70.
考察了采用SBR工艺处理城市污水厂污泥水的脱氮除磷效果及其特性。
The biological nitrogen and phosphorus removal effect and characteristics of SBR process in the treatment of sludge water from WWTP were investigated.
在对废水进行脱氮除磷时,去除生物营养素是一种相对成本较低的方法。
Biological nutrient removal is a relatively low-cost means of removing nitrogen and phosphorus from wastewater.
就脱氮与除磷而言,由于各自过程的要求不同,二者之间存在一定的矛盾关系。
The paradoxical relationships are inevitably produced because of the different requirements on denitrification and phosphor removal.
MSBR系统是一种新型的生物脱氮除磷工艺,它介于连续流和序批操作之间。
MSBR (Modified Sequencing Batch Reactor) is a new developed Biological Nutrient Removal technology, which is quite different from the other transformations of SBR.
那种生长迅速,繁殖能力强,单个藻细胞除磷能力强的藻种有较好的除磷效果。
The phosphorus removal capability becomes very good, when having a great mass of algae and a great quantity of removing phosphorus a cell.
考察了SBR生物除磷工艺模型中活性污泥的微生物组成及其在该除磷系统中的功能。
Microorganisms of the activated sludge in SBR phosphorus removal system and their functions have been studied.
采用二级串联潜流式人工湿地系统对太湖地区农村生活污水进行了脱氮除磷的试验研究。
Experiments of nitrogen and phosphorus removal from rural domestic wastewater in the Taihu Lake basin were carried out by the two-stage subsurface flow constructed wetland process.
在此基础上,提出了一种新的化学除磷技术—固定化活性氧化镧的化学—吸附除磷技术。
The paper introduces one kind of new chemical removing phosphorus technology named fixed active lanthanum oxide chemical-adsorption phosphorus based on the above summary.
采用人工合成废水,考察了SBR生物除磷工艺的除磷效果和影响除磷效果的一些因子。
Simulated wastewater was used for teeing phosphorous removing effect and the factors of influence of SBR system.
进一步研究表明,除磷效率得到显著提高的原因主要是SBR2系统较低的二次磷释放量。
Further study showed that the reason for the obvious enhancement of phosphorus removal efficiency was mainly the SBR2 system lower second phosphorus release amount.
应用国产化锁磷剂(PHOSLOCK)进行滇池入湖河道中城市污水除磷净化实验研究。
A series experiments have been conducted to remove phosphor of river wastewater by the PHOSLOCK.
废水中过量磷酸盐是引起水体富营养化的主要原因之一,生物除磷是一项新型的水处理技术。
Phosphate in wastewater is one of the main causes of eutrophication, and biological phosphorus removal from wastewater is a new wastewater treatment technology.
利用粉煤灰合成沸石,考察了其对模拟废水中磷酸盐的去除效果,并着重研究了其除磷机理。
The mechanism of phosphate removal from simulative wastewater by synthesized zeolite from fly ash is put forward in this paper.
按照生物除磷的机理,除磷效率的高低与基质中易降解有机物的含量及有机物的去除密切关联。
According to the mechanism of biological dephosphorization, the efficiency of removing phosphorus related to content and removal of organic substance.
目的为了深入研究连续流双污泥反硝化同时除磷系统的主要影响因素,确定系统最佳运行条件。
The affecting factors of the continuous-flow two-sludge system for simultaneous biological phosphorus and nitrogen removal were investigated in order to decide on the best working state of the system.
由于在UNITANK工艺前端增设了厌氧池,有效提高了UNITANK工艺的脱氮除磷效果。
The anaerobic tank which is set before the UNITANK process improves nitrogen and phosphorus removal efficiency efficiently.
阐述了生物除磷机理及其实现途径,并进行了定量说明;同时,还分析了生物除磷的几个影响因素。
The mechanism of Enhanced Biological Phosphorus Removal (EBPR) is expounded, and some quantitative formulas of it are put forward. Meanwhile, the influential factors of EBPR are analyzed.
阐述了生物除磷机理及其实现途径,并进行了定量说明;同时,还分析了生物除磷的几个影响因素。
The mechanism of Enhanced Biological Phosphorus Removal (EBPR) is expounded, and some quantitative formulas of it are put forward. Meanwhile, the influential factors of EBPR are analyzed.
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