笔者利用空气水系统对错流旋转填料床的气相压降进行实验研究。
In this paper, the gas pressure drop of a cross-flow rotating packed bed is studied based on air-water system.
采用因次分析的方法推导出错流旋转填料床气相压降的无因次关联式。
The correlative formulas for pressure drop of cross-flow rotating packed bed was deduced with the method of dimensional analysis.
本文研究了对撞流—旋转填料床反应器液相连续制备纳米硫酸钡新工艺。
A new technology for continuous preparing nano barium sulfate in the impinging steam-rotating packed bed was studied.
利用离心传质分离装置—旋转填料床,对易溶气体吸收过程的传质性能进行了实验研究。
The characteristic of mass transfer in absorption of soluble gas is studied in the rotating packed bed.
旋转填料床技术是一种突破性的过程强化新技术,在化工、能源、环保、材料、生物化工等工业领域中有广阔的商业化应用前景。
Rotating packed bed is a new technique of process intensification and has a broad application prospect in various fields of material, chemical engineering, energy and environmental protection.
多孔波纹板错流旋转床填料具有传质效率高、压降低、动平衡性好等优点。
Therefore, cross-flow rotating bed with protruded ripple plate packing have many merits of higher mass transfer efficiency, lower pressure drop and better kinetic balance.
转速和气体流量对旋转床填料层内的体积传质系数影响较大,流体流量和气相中二氧化硫浓度影响不大。
The volumetric mass-transfer coefficient in packing increases with gas flow rate and rotating speed raises. Liquid flow rate and concentration of SO2 in inlet gas influences less on it.
研究结果为aip系统旋转床吸收器的填料优选及全系统的优化设计提供了重要的依据。
These studies offer important reference to the optimization of the RPB absorber and the all AIP system.
研究结果为aip系统旋转床吸收器的填料优选及全系统的优化设计提供了重要的依据。
These studies offer important reference to the optimization of the RPB absorber and the all AIP system.
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