1·The humidification and concentration polarization was studied with the model.
应用该模型对燃料电池的增湿效果和浓差极化进行研究。
2·Concentration polarization force is the tendency for molecules to build up or concentrate at the membrane surface.
浓差极化力是分子在膜表面堆积或浓缩的趋势。
3·The vacuum membrane distillation for loquat leaf extract was tested and the concentration polarization was analyzed.
研究了枇杷叶提取液真空膜蒸馏过程的影响因素,并分析了浓差极化问题。
4·The methods and strategies of study on concentration polarization and membrane fouling were briefly reviewed in this paper.
简要综述了浓差极化和膜污染的研究方法和策略。
5·The essential distinction of EDI process from ED process is the utilizable concentration polarization and dissociation of water.
浓差极化与水解离的可利用性是EDI与ED过程的最本质区别。
6·The small current of the slow pulse could efficiently decrease the ionic concentration polarization and increase the charging efficiency.
慢脉冲中的小电流有效地控制了离子浓差极化,提高了充电效率。
7·The results also indicate that the phenomenon of temperature polarization and concentration polarization is inevitable during VMD process.
其过程中的浓度极化和温度极化现象是膜蒸馏过程进行时的必然现象。
8·The vacuum membrane distillation for motherwort extract is tested and the temperature polarization and concentration polarization are analyzed.
本文研究了影响益母草真空膜蒸馏过程的基本影响因素,并分析了浓差极化和温差极化问题。
9·In the present paper, the reasons of concentration polarization were analyzed and methods for reducing concentration polarization were suggested.
分析了膜分离中的浓差极化现象的产生原因,并提出与此对应的减弱措施。
10·The phenomena of concentration polarization under the conditions of preferential adsorption and repulsion on the surface of membrane were analysed.
分析了溶质在膜表面优先吸附和受排斥情况下的浓差极化现象。