介绍了一种独创性的纳米材料合成方法即超重力法。
An innovative process-high gravity technology for nanometer material synthesis is presented.
并进行了螺旋通道型旋转床超重力法与搅拌槽反应法的对比实验。
The contrastive experiment between the stirred tank reactor and RBHC high-gravity reactor was performed.
最后。根据实验过程中的数据和现象对超重力法合成石油磺酸盐的可行性进行了理论分析。
The experiment data and phenomena hypergravity synthesis of petroleum sulfonates the feasibility of the theoretical analysis.
以水玻璃和硫酸为原料,在超重力反应器中采用沉淀法合成了超细二氧化硅粉体。
Ultrafine silica powder was prepared in a rotating packed bed(RPB) reactor using water glass and sulfuric acid as raw materials.
文中采用基于颗粒轨道模型的欧拉拉格朗日法对超重力旋转床中的气液两相流动与传质进行了数值模拟研究。
In this paper, a particle trajectory model attached in an Eulerian-Lagrangian method is used to numerically simulate gas-liquid two-phase flow in RPB.
以水玻璃和硫酸为原料,采用超重力反应沉淀法合成了超细二氧化硅粉体。
Ultrafine SiO_(2 ) powders were prepared by High Gravity Reactive Precipitation method from water glass solutions and sulphuric acid.
以水玻璃和硫酸为原料,采用超重力反应沉淀法合成了超细二氧化硅粉体。
Ultrafine SiO_(2 ) powders were prepared by High Gravity Reactive Precipitation method from water glass solutions and sulphuric acid.
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