粘度和毛细作用对膨胀液-气溶液中气泡不平衡分布的影响

IF 2.5 Q3 CHEMISTRY, PHYSICAL Colloids and Interfaces Pub Date : 2023-05-05 DOI:10.3390/colloids7020039
A. Shchekin, A. Kuchma, E. Aksenova
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引用次数: 0

摘要

在发现超临界气泡半径随时间变化的分布的基础上,对脱气时气体溶液过饱和的演变进行了详细的统计描述。溶液粘度和毛细管作用通过气泡中的内部压力对这种分布的影响一直被考虑,直到气体过饱和度由于耗尽而下降并停止新的超临界气泡的成核。本研究旨在发现超临界气泡的非平稳增长率取决于气体的过饱和度、在溶液中的扩散率和溶解度、溶液粘度和气泡表面的表面张力。其他重要因素与均匀气泡成核的初始速率以及溶液中扩散率和粘度之间的耦合有关。在这里,我们数值研究了所有这些因素如何影响超临界气泡在其半径、最大和平均气泡半径中的随时间变化的分布函数,以及在宽溶液粘度范围内气体过饱和溶液的随时间增长的膨胀比。
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The Effects of Viscosity and Capillarity on Nonequilibrium Distribution of Gas Bubbles in Swelling Liquid–Gas Solution
A detailed statistical description of the evolution of supersaturated-by-gas solution at degassing has been presented on the basis of finding the time-dependent distribution in radii of overcritical gas bubbles. The influence of solution viscosity and capillarity via internal pressure in the bubbles on this distribution has been considered until the moment when the gas supersaturation drops due to depletion and stops nucleation of new overcritical gas bubbles. This study aims to find the nonstationary growth rate of overcritical bubbles depending on gas supersaturation, diffusivity and solubility in solution, solution viscosity, and surface tension on bubble surface. Other important factors are linked with the initial rate of homogeneous gas bubble nucleation and coupling between diffusivity and viscosity in the solution. Here, we numerically studied how all these factors affect the time-dependent distribution function of overcritical bubbles in their radii, maximal and mean bubble radii, and the time-dependent swelling ratio of a supersaturated-by-gas solution in a wide range of solution viscosities.
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来源期刊
Colloids and Interfaces
Colloids and Interfaces CHEMISTRY, PHYSICAL-
CiteScore
3.90
自引率
4.20%
发文量
64
审稿时长
10 weeks
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