What We Learned from Cavitation Bubbles in Microgravity

Farhat, Mohamed

doi:10.5772/intechopen.93461

Cited by 3 publications

(2 citation statements)

References 22 publications

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“…The collapse process of bubbles in confined domains is affected by the boundary, resulting in a complex dynamics of bubble collapse [11]. Cavitation within the droplet will increase the degree of droplet atomization [12], causing violent droplet splash [13] and further explosions [14]. In addition, a cavitation bubble within a droplet is also of interest in many other fields [15][16][17][18], e.g., ultrasonic material cleaning [19] and inkjet printing [20].…”

Section: Introductionmentioning

confidence: 99%

Research on Eccentric Cavitation Bubble Collapse Dynamics within Droplets

Zhang

et al. 2023

Symmetry

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The research on cavitation bubbles within droplets has gradually become one of the advanced topics in the field of confined fluid domains, which is closely related to the industry fields. However, the research on the relationship between cavitation bubbles collapsing within droplet and droplet splash dynamics is still in its infancy. Here, the high-speed photography experimental platform of cavitation bubbles within droplets was built to investigate the influences of the eccentricities of bubbles within droplets on the phenomenon. The concluding remarks are given as follows. (1) With the change in eccentricity, the droplet splash morphology can be divided into three cases: scattering, trident, and composite splashes respectively. Moreover, the movement trend of the bubble wall can be divided into three categories: spherical, fabiform, and ellipsoidal. (2) The height of the main peak of the droplet splash and the distribution law of the splash angle could be changed by the eccentricity. (3) The bubble collapse time of the droplet is significantly affected by the eccentricity.

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Section: Introductionmentioning

confidence: 99%

Research on Eccentric Cavitation Bubble Collapse Dynamics within Droplets

Zhang

et al. 2023

Symmetry

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“…For example, the theoretical model suitable for the dynamics of cavitation bubble collapse within droplets still suffers many limitations. Based on these, the topic of cavitation bubbles within droplets is being given increasing attention by researchers [56].…”

Section: Introductionmentioning

confidence: 99%

A Review of the Dynamics Progress of Bubble Collapse within Droplet and Droplet Splash

Zhang

et al. 2023

Applied Sciences

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The dynamics of a cavitation bubble within a droplet is one of the hot research topics at present. The present paper summarizes the research progress of bubble collapse within droplets and associated droplet splash. Firstly, three typical structures of bubble collapse are introduced, together with the collapsing shock waves and the distribution of collapsing forces. Secondly, several typical forms of droplet splash are shown in terms of splash speed, splash direction, and dynamic mechanisms. Finally, the unsolved problems in the field of cavitation bubbles within droplets are proposed with perspectives.

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Cryogenic propellant management in space: open challenges and perspectives

Simonini,

Dreyer,

Urbano

et al. 2024

npj Microgravity

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This paper presents open challenges and perspectives of propellant management for crewed deep space exploration. The most promising propellants are liquid hydrogen and liquid methane, together with liquid oxygen as an oxidizer. These fluids remain liquid only at cryogenic conditions, that is, at temperatures lower than 120 K. To extend the duration of space exploration missions, or even to enable them, the storage and refueling from a cryogenic on-orbit depot is necessary. We review reference missions, architectures, and technology demonstrators and explain the main operations that are considered as enablers for cryogenic storage and transfer. We summarize the state of the art for each of them, showing that many gaps in physical knowledge still need to be filled. This paper is based on recommendations originally proposed in a White Paper for ESA’s SciSpacE strategy.

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What We Learned from Cavitation Bubbles in Microgravity

Cited by 3 publications

References 22 publications

Research on Eccentric Cavitation Bubble Collapse Dynamics within Droplets

Research on Eccentric Cavitation Bubble Collapse Dynamics within Droplets

A Review of the Dynamics Progress of Bubble Collapse within Droplet and Droplet Splash

Cryogenic propellant management in space: open challenges and perspectives

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