生物活性炭(BAC)是一种处理有机废水的有效方法。
It is an effective method to treat the organic wastewater with the biological activated carbon (BAC).
采用生物活性炭滤-砂慢滤工艺对农村饮水处理进行了试验研究。
Biological activated carbon filtration and slow sand filtration are used to study the rural potable water treatment.
将生物沸石反应器与生物活性炭,生物陶粒反应器进行有效对比。
The removal efficiency of biological zeolite reactor is compared with that of biological active carbon and bio-ceramic reactor.
研究了温度对高氨氮进水条件下生物活性炭滤池硝化能力的影响。
The influence of temperature on nitrification ability of BAC filter under the condition of high NH4(superscript +)-Ninfluent water was studied.
生物沸石预处理有同生物活性炭、生物陶粒预处理一样的污染物去除效果。
Biological zeolite pre treatment has the same pollutants removal effect of Bio activated carbon and Bio ceramsite.
介绍了生物活性炭(BAC)法去除有机物的方式,不同进水水质条件下的特征穿透曲线。
It is introduced that the removal mode of organics by biological activated carbon (BAC) process, and the characristic penetration curves of different water quality of influent.
本研究为曝气生物活性炭法有效去除印染碱减量废水中难降解有机物提供了一定的理论依据。
Results of this research present certain theoretical basis for effective advanced bio-treatment of recalcitrant textile wastewater by aerated BAC method.
介绍了活性炭的物理特性、使用寿命、在水处理中的作用以及生物活性炭工艺主要的影响因素。
Physical characteristics, service life, effect of biological activated carbon process in drinking water treatment process and main influencing factors were introduced.
随着饮用水水源污染日益严重,以生物活性炭为核心的饮用水深度处理技术受到人们广泛关注。
Drinking source water pollution is more and more serious, so it is widely concerned that drinking water advanced treatment to biological activated carbon as core.
对生物陶粒和生物活性炭上的微生物分别进行超声波洗脱、R2A和LB平板培养后提取基因组DNA。
Microorganisms on bio-ceramics and biological activated carbon were detached by ultrasonic, culturing on R2A and LB agar, respectively, followed by genome DNA extracting.
随着炭层高度的增加,活性炭颗粒表面微生物的密度逐渐降低;生物活性炭上的细菌以球菌和杆菌为主。
The topography of bac observed by SEM showed that bacterial density on the GAC was reduced along water flow direction and coccus and bacilli were the main bacteria.
结果表明,生物预处理、生物活性炭及常规的混凝沉淀砂滤工艺均使水中的MAP、TP及SRP大大降低;
The result showed that biological pretreatment, biological activated carbon and conventional technology(coagulation, sedimentation and sand-filtration) could remove greatly MAP, TP and SRP in water.
高锰酸盐—生物活性炭联用工艺对藻类及有机物有明显的去除,去除率可分别达到99.5%和20.6%。
This combined process has obvious removal capacity for removing algae and organic substances. Their removal rates can reach 99.5% and 20.6%, respectively.
同时通过对比试验研究了低强度的超声波对膜污染防治作用及其在膜-生物活性炭反应器中对生物过程的强化作用。
And the effects of ultrasonic irradiation at low intensity in BACMR on the enhancement of biological action and membrane pollution control were investigated through parallel experiments.
生物活性炭处理废水是一种新型的废水处理工艺。长期以来,有关生物活性炭处理有机物的机理一直存在较大的争议。
Wastewater treatment using activated carbon is a new type of technology, The mechanism of treating organic using biological activated carbon has be in dispute for many years.
通过不同功率密度的超声波处理发现,0.33W/L的超声波在膜-生物活性炭反应器内提高生物活性的效果最为明显。
The experiments with ultrasonic at different power intensities showed that ultrasonic at a power intensity of 0.33W/L could enhance biological activity significantly.
为了开发低温环境下微污染水源水净化工艺,本课题通过实验室试验和现场试验,开展了膜-生物活性炭反应器净化微污染水源水的研究。
A biological activated carbon membrane reactor (BACMR) was studied for treating micro-polluted water through lab and spot experiments for a process developing of micro-polluted water treatment.
采用酸中和—厌氧—好氧—生物活性炭或化学混凝综合法处理制浆黑液,探讨了酸中和处理的影响因素及厌氧处理对后段好氧处理的影响。
The process of acid neutralization-anaerobic-aerobic-biological activated carbon or chemical coagulation has been employed to treat black liquor from pulp mill.
研究了粉末活性炭(PAC)作为载体的膜生物反应器(MBR)处理吹脱后垃圾渗滤液的硝化性能。
The nitrification performance in MBR with powdered activated carbon(PAC) was studied in treating landfill leachate after air stripping.
硅藻土是几十万年前水生浮游类生物硅藻的沉积物,它的孔隙率在90%以上,是活性炭的5000倍。
For hundreds of thousands of years ago diatomite is floating creature of aquatic diatoms, it porosity of sediments at more than 90%, is 5000 times of the activated carbon.
过滤网或附加过滤网,可以是普通过滤布形成,但最好是由活性炭过滤层形成或生物膜过滤层形成。
The filtering mesh or supplementary filtering mesh can be formed by common filtration fabric, but preferably formed by an activated charcoal filtering layer or biological film filtering layer.
通过试验考察了粉末活性炭(PAC)对一体式膜-生物反应器中膜污染的影响。
The effect of powdered activated carbon (PAC) on the fouling in a submerged membrane bioreactor was investigated.
本发明提供了一种活性炭肠生物黏附制剂及其制备的方法。
The invention provides a biologic adhesion preparation of active carbon for bowels and its preparation method.
该反应器的设计思想是将abr与生物滤池以及活性炭吸附等工艺相联合。
The idea of this reactor's design was combining the ABR with the biofilter and the activated carbon craft.
从膜生物反应器的类型、气水比和粉末活性炭的投加浓度等方面研究了控制膜污染的方法。
Through the study of the type of membrane bioreactor, air-water ratio as well as concentration of powdered activated carbon, the methods of preventing membrane fouling are studied.
采用MBR(膜生物反应器)及MBR -PAC (PAC,粉末活性炭)组合工艺处理微污染湖水。
In this experiment membrane bioreactor (MBR) and its hybrid process (MBR-PAC) were used to treat micro-polluted lake water.
生物增强活性炭(IBAC)能否取得长期运行稳定效果,活性炭能否获得更长的使用寿命是该技术能否推广的关键。
Intensed biological activated carbon (IBAC) can produce long-term operation stability results, activated carbon is the availability of longer useful life of the key technologies can promote.
从对生物量和微生物耗氧速率的影响方面,考察了盐水、氨水、氯和氯胺等四种除蚤剂对活性炭上微生物的影响。
The influences of dosing medicaments, such as brine, ammonia water, chlorine and chloramines, on microorganisms of activated carbon were investigated by means of biomass and OUR.
在此基础上,提出高级氧化-活性炭吸附、高级氧化-生物等联合技术是今后研究的主要方向。
Based on these, it is proposed that the united technologies of advanced oxidation-activated carbon adsorption, advanced oxidation-biology, etc. are the main research directions in the future.
处理后的活性炭采用微生物再生后,循环利用。
The activated carbon could be regenerated with microbes for the recycled use.
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