In the reduced acceleration environment aboard orbiting spacecraft, capillary forces are often exploited to access and control the location and stability of fuels, propellants, coolants, and biological liquids in containers (tanks) for life support. To access the ‘far reaches’ of such tanks, the passive capillary pumping mechanism of interior corner networks can be employed to achieve high levels of draining. With knowledge of maximal corner drain rates, gas ingestion can be avoided and accurate drain transients predicted. In this paper, we benchmark a numerical method for the symmetric draining of capillary liquids in simple interior corners. The free surface is modeled through a volume of fluid (VOF) algorithm via interFoam, a native Open...
Forced liquid flows through open capillary channels with free liquid surfaces are and will be invest...
Draining a liquid from a cylindrical tank is numerically simulated using OpenFOAM. OpenFOAM is an op...
We analyze the mathematical robustness of slow massively parallel interior corner flows in low gravi...
In the reduced acceleration environment aboard orbiting spacecraft, capillary forces are often explo...
103 pagesThis thesis is comprised of two overarching pieces of work: chapters 1 and 2 analyze and si...
In this work, we analyze liquid drains from containers in effective zero-g conditions aboard the Int...
Abstract In this work, we analyze liquid drains from containers in effective zero-g conditions aboar...
The capillary driven flow in cylindrical interior corners satisfying the Concus-Finn condition was i...
Fuel tanks are a core component in satellites that manage the propellant. This study numerically ana...
An improved understanding of the large-length-scale capillary flows arising in a low-gravity environ...
This paper describes the experiments on flow rate limitation in open capillary channel flow that wer...
In the microgravity environment, liquid is usually adsorbed in corners or slots. Liquid accumulated ...
This paper is concerned with forced flow through partially open capillary channels under microgravit...
It is possible to drain slender containers filled with wetting liquids via capillary flows along the...
The study of two phase systems with one of the phases obstructing the other is of importance in a lo...
Forced liquid flows through open capillary channels with free liquid surfaces are and will be invest...
Draining a liquid from a cylindrical tank is numerically simulated using OpenFOAM. OpenFOAM is an op...
We analyze the mathematical robustness of slow massively parallel interior corner flows in low gravi...
In the reduced acceleration environment aboard orbiting spacecraft, capillary forces are often explo...
103 pagesThis thesis is comprised of two overarching pieces of work: chapters 1 and 2 analyze and si...
In this work, we analyze liquid drains from containers in effective zero-g conditions aboard the Int...
Abstract In this work, we analyze liquid drains from containers in effective zero-g conditions aboar...
The capillary driven flow in cylindrical interior corners satisfying the Concus-Finn condition was i...
Fuel tanks are a core component in satellites that manage the propellant. This study numerically ana...
An improved understanding of the large-length-scale capillary flows arising in a low-gravity environ...
This paper describes the experiments on flow rate limitation in open capillary channel flow that wer...
In the microgravity environment, liquid is usually adsorbed in corners or slots. Liquid accumulated ...
This paper is concerned with forced flow through partially open capillary channels under microgravit...
It is possible to drain slender containers filled with wetting liquids via capillary flows along the...
The study of two phase systems with one of the phases obstructing the other is of importance in a lo...
Forced liquid flows through open capillary channels with free liquid surfaces are and will be invest...
Draining a liquid from a cylindrical tank is numerically simulated using OpenFOAM. OpenFOAM is an op...
We analyze the mathematical robustness of slow massively parallel interior corner flows in low gravi...