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.
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.
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.
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.
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.
向膜生物反应器内投加粉末活性炭是提高和维持膜通量的有效途径,并且可以降低运行费用。
The experimental results showed that dosing PAC was an effective way to increase membrane flux and decrease the operating cost of MBR.
向膜生物反应器内投加粉末活性炭是提高和维持膜通量的有效途径,并且可以降低运行费用。
The experimental results showed that dosing PAC was an effective way to increase membrane flux and decrease the operating cost of MBR.
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