An analytical model of gas content in fluids considering the distribution of bubble radius

Abstract: Gas bubbles in liquid can change the properties of liquid, such as density, viscosity and compressibility. Therefore, to predict the liquid properties, it is essential to evaluate the gas content, which depends on the bubble radius and its size distribution. This paper presents an analytical model of gas content with consideration of the distribution of bubble radius. A steady state formula of bubble radius is presented based on force equilibrium of bubble interface. From the experimental data, the distributio… Show more

“…However, when the plunger of the RSDF system reciprocates, the liquid pressure will be lower than the air separation pressure or the saturated vapor pressure. The vapor structures are formed within the oil appearing in the two coexisting states, also called cavitation [12][13][14]. Cavitation is an essential factor affecting the RSDF system's VE and increases vibration and noise [15][16][17].…”

Research on Cavitation of the Rotating-Sleeve Distributing Flow System Considering Different Cam Groove Profiles

“…However, when the plunger of the RSDF system reciprocates, the liquid pressure will be lower than the air separation pressure or the saturated vapor pressure. The vapor structures are formed within the oil appearing in the two coexisting states, also called cavitation [12][13][14]. Cavitation is an essential factor affecting the RSDF system's VE and increases vibration and noise [15][16][17].…”

Research on Cavitation of the Rotating-Sleeve Distributing Flow System Considering Different Cam Groove Profiles