气液界面存在同向或反向切应力时,在一定程度上影响到液膜的水动力学特性和流动稳定性,并改变其热质传递特性。
The shear stress at the liquid-gas interface plays an important role on characteristics of the hydrodynamics, flow stability and heat transfer of liquid film.
实验结果表明,静态系统下,二氧化碳气体在纯水体系中的生成速率非常缓慢,只在气-液界面处有一薄层浆状水合物生成。
The results demonstrate that the formation rate of CO2 hydrate is rather slow in a quiescent system without surfactant, and hydrates are formed only at the gas-water interface.
结果表明,对二甲苯氧化转化率对气液界面面积的敏感性较强,在一定的操作范围内,系统呈现单一的稳定性。
The results showed that the sensitivity of gas-liquid interface area on para-xylene oxidation conversation rate is strong. In a certain operation range, the system appears a single stability.
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