悬浮态的光催化反应器相比固载的光催化反应器有更高的光催化效率。
Photocatalysis with suspended photocatalyst is more efficient than that with supported photocatalyst.
所以如何提高其在可见光下的光催化效率成为了实验室研究的重点方向。
So, how to improve its photo-catalytic efficiency under has become the focus of the direction of laboratory research.
就目前而言,量子效率低、反应速度慢等缺点制约了光催化氧化的应用。
However, it has some disadvantages keeping back its application, such as low quantum efficiency, low reaction rate.
本文综述了光催化脱硝技术反应影响因素以及提高光催化脱硝效率的方法,并基于光催化脱硝技术研究的现状,对其研究方向提出建议。
This paper reviews the influencing factors of photocatalytic removal of NOx and addresses the methods to improve catalytic efficiency, based on which, some suggestions are proposed for further study.
并且拉曼散射光谱向低波数方向移动,有助于增加光致电子的跃迁几率,提高多相光催化过程的本征量子效率。
The Raman scattering shifted to low wave number direction helped to increase the transition probability of photon-generated electrons and improved photoefficiency.
气相光电催化反应系统降解环己烷的效率比单独光催化、电催化都高。
The degradation efficiency of photoelectrocatalysis is higher than that of the single photo- catalysis or electrocatalysis.
本发明的高催化效率、可磁性回收的光催化剂的制备方法,操作简单,对设备要求较低。
The preparation method of the photocatalyst with high catalyst efficiency and magnetic recovery capability of the invention has simple operation and low requirement on equipment.
同时,利用光催化反应条件,建立了脱硫脱硝效率的预测模型。
On the basis of the experimental reaction condition, the desulfurization model and the denitrification model were proposed.
同时,利用光催化反应条件,建立了脱硫脱硝效率的预测模型。
On the basis of the experimental reaction condition, the desulfurization model and the denitrification model were proposed.
应用推荐