| 1. | Methods and strategies of study on concentration polarization and membrane fouling
研究浓差极化和膜污染过程的方法与策略 |
| 2. | The experimental research of dean vortices reducing concentration polarization in hollow fiber membrane
涡降低浓差极化的试验研究 |
| 3. | The elimination of polarization by short discharge is the key to optimal charging
通过短暂放电消除浓差极化是实现高效快速无损充电的关键。 |
| 4. | Concentration polarization and membrane fouling in membrane process severally limit its application and development
膜分离技术中的浓差极化和膜污染在某些方面限制了膜的应用和发展。 |
| 5. | This paper mainly summarized some recent developments about the technological research on controlling methods of concentration polarization and membrane fouling in microfiltration and ultrafiltration
摘要本文较全面的介绍了微滤和超滤过程中浓差极化和膜污染的各种控制方法,并比较了各种方法的优缺点。 |
| 6. | The microorganism and substrate could be mixed and the energy consumption reduced by using bionic peristaltic method , and the concentration polarization could be lowered during the membrane separation
利用蠕动技术达到了微生物与底物充分混合并减少了能耗,同时减少了膜分离过程中的浓差极化现象的产生。 |
| 7. | Based on the concentration polarization models with conventional filter cake resistance and shear - induced diffusion , the critical point simulating model on cross flow microfiltration process in particulate suspension was developed
摘要以传统的滤饼层阻力和与诱导扩散相结合的浓差极化模型为基础,建立了刚性颗粒悬浮液体系错流微滤过程中模拟临界点的数学模型。 |
| 8. | Microfiltration ( mf ) , also called micropores filtration , is a pressure - driven membrane process and finds wide applications in chemical , medical , food industry , and so on . as a new rising technology , it has its great market prospects and commercial values
在化工、医药、食品等领域都有广泛的应用,是一项极具市场潜力和经济价值的新兴技术,但浓差极化和膜污染是制约微滤技术进一步发展和应用的两大难题。 |
| 9. | Abstract : concentration polarization and fouling of membrane are the key problen which has effected in widening use of microfiltration . based on understanding on the flux decline and lateral migration deposition of porticles in tubular membrane , some analysis on effect factors of enhancement of microfiltration within tubular membrane with rotation flow is introduced , in this paper
文摘:浓差极化和膜污染是阻碍微滤广泛应用的关键难题,在认识理解颗粒迁移沉积和过滤速率下降的基础上,本文对旋转流管式膜微滤进行了一定的探讨分析。 |
