Dillon J. Sances scite author profile

Dillon J. Sances

4Publications

6Citation Statements Received

0Citation Statements Given

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Embry–Riddle Aeronautical University

Publications

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CFD Fuel Slosh Modeling of Fluid-Structure Interaction in Spacecraft Propellant Tanks with Diaphragms

Sances

Gangadharan²,

Sudermann

et al. 2010

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Liquid sloshing within spacecraft propellant tanks causes rapid energy dissipation at resonant modes, which can result in attitude destabilization of the vehicle. Identifying resonant slosh modes currently requires experimental testing and mechanical pendulum analogs to characterize the slosh dynamics. Computational Fluid Dynamics (CFD) techniques have recently been validated as an effective tool for simulating fuel slosh within free-surface propellant tanks. Propellant tanks often incorporate an internal flexible diaphragm to separate ullage and propellant which increases modeling complexity. A coupled fluid-structure CFD model is required to capture the damping effects of a flexible diaphragm on the propellant. ANSYS multidisciplinary engineering software employs a coupled solver for analyzing two-way Fluid Structure Interaction (FSI) cases such as the diaphragm propellant tank system. Slosh models generated by ANSYS software are validated by experimental lateral slosh test results. Accurate data correlation would produce an innovative technique for modeling fuel slosh within diaphragm tanks and provide an accurate and efficient tool for identifying resonant modes and the slosh dynamic response.

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Investigation to Determine Resonant Behavior from Propellant Slosh in Spinning On-Orbit Propellant Storage and Transfer Systems

Silvernail¹,

Sances²,

Morehead³

et al. 2011

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Modeling of Free-Surface Fuel Slosh in Microgravity for Off-Axis Spacecraft Propellant Tanks

Sances¹,

Gibson²,

Neumann³

et al. 2009

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Model of Spacecraft Fuel Slosh with Diaphragms in Microgravity

Silvernail¹,

Sances²,

Gangadharan³

et al. 2009

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Dillon J. Sances

CFD Fuel Slosh Modeling of Fluid-Structure Interaction in Spacecraft Propellant Tanks with Diaphragms

Investigation to Determine Resonant Behavior from Propellant Slosh in Spinning On-Orbit Propellant Storage and Transfer Systems

Modeling of Free-Surface Fuel Slosh in Microgravity for Off-Axis Spacecraft Propellant Tanks

Model of Spacecraft Fuel Slosh with Diaphragms in Microgravity

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