Add to ORKGPropellant slosh is a potential source of disturbance that can significantly impact the stability of space vehicles. The slosh dynamics are typically represented by a mechanical model of a spring-mass-damper. This mechanical model is then included in the equation of motion of the entire vehicle for Guidance, Navigation and Control analysis. The typical parameters required by the mechanical model include natural frequency of the slosh, slosh mass, slosh mass center location, and the critical damping ratio. A fundamental study has been undertaken at NASA MSFC to understand the fluid damping physics from a ring baffle in the barrel section of a propellant tank. An asymptotic damping equation and CFD blended equation have been derived by NASA M...
Resonant effects and energy dissipation due to sloshing fuel inside propellant tanks are problems th...
Without an adequate understanding of propellant slosh, the spacecraft attitude control system may be...
Liquid propellant sloshing in tilted axisymmetric cylindrical tanks for space shuttle application
Liquid propellant slosh is often a concern for the controllability of flight vehicles. Anti-slosh de...
To meet the flight control damping requirement, baffles of various configurations have been devised ...
The predicted slosh damping values from Loci-Stream-VOF agree with experimental data very well for a...
Propellant tank slosh dynamics are typically represented by a mechanical model of spring mass damper...
The Miles equation has long been used to predict slosh damping in liquid propellant tanks due to rin...
Determination of slosh damping is a very challenging task as there is no analytical solution. The da...
NASA design teams have been investigating options for "detuning" Ares I to prevent oscillations orig...
Grid stiffened tank structures such as Ortho-Grid and Iso-Grid are widely used in cryogenic tanks fo...
Liquid sloshing within spacecraft propellant tanks causes rapid energy dissipation at resonant modes...
One of the challenges of developing flight control systems for liquid-propelled space vehicles is en...
Slosh damping effectiveness of positive expulsion bags and diaphragms in spherical tank
Experimental and numerical results are presented from a new cryogenic fluid slosh program at the Flo...
Resonant effects and energy dissipation due to sloshing fuel inside propellant tanks are problems th...
Without an adequate understanding of propellant slosh, the spacecraft attitude control system may be...
Liquid propellant sloshing in tilted axisymmetric cylindrical tanks for space shuttle application
Liquid propellant slosh is often a concern for the controllability of flight vehicles. Anti-slosh de...
To meet the flight control damping requirement, baffles of various configurations have been devised ...
The predicted slosh damping values from Loci-Stream-VOF agree with experimental data very well for a...
Propellant tank slosh dynamics are typically represented by a mechanical model of spring mass damper...
The Miles equation has long been used to predict slosh damping in liquid propellant tanks due to rin...
Determination of slosh damping is a very challenging task as there is no analytical solution. The da...
NASA design teams have been investigating options for "detuning" Ares I to prevent oscillations orig...
Grid stiffened tank structures such as Ortho-Grid and Iso-Grid are widely used in cryogenic tanks fo...
Liquid sloshing within spacecraft propellant tanks causes rapid energy dissipation at resonant modes...
One of the challenges of developing flight control systems for liquid-propelled space vehicles is en...
Slosh damping effectiveness of positive expulsion bags and diaphragms in spherical tank
Experimental and numerical results are presented from a new cryogenic fluid slosh program at the Flo...
Resonant effects and energy dissipation due to sloshing fuel inside propellant tanks are problems th...
Without an adequate understanding of propellant slosh, the spacecraft attitude control system may be...
Liquid propellant sloshing in tilted axisymmetric cylindrical tanks for space shuttle application