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W2334181504 abstract "BACKGROUND For more than 30 years, analytical, experimental, and computational studies have been performed to seek reliable technologies for managing cryogenic propellants in reduced gravity. Passive and impulsive systems have been utilized for monopropellant management onboard small satellites. Passive systems depend on surface tension forces generated by specific geometries, such as screens, vanes, and channels, inside the tank, to hold the propellant within specific locations inside the tank. One disadvantage of the passive system is the increased weight of the spacecraft due to the vane/screen/channel structures. Active systems achieve reorientation by firing external thrusters that accelerate the spacecraft tank relative to the liquid. The advantage propulsive methods have over passive systems is that propellant can be repositioned to meet mission requirements. However, implementation requires the addition of auxiliary thrusters, fuels, and controls. Experimental and computational studies have shown that a sufficiently strong magnetic field can influence a magnetically susceptible liquid. An improved simulation integrates an electromagnetic field model and incompressible flow model to predict fluid reorientation using realistic magnetic fields. Flow fields are presented incorporating several realistic magnetic fields to verify and validate the connectivity of the integrated system. Conclusions are drawn about the fidelity of the integrated simulation in modeling magnetically induced fluid flows. The simulation is used to model the application of magnetic positive positioning of LOX in a reduced gravity experiment utilizing a realistic magnetic field. Preflight experiment predictions of the performance of the magnetic field in reorienting LOX are presented and recommendations are made for future design." @default.
W2334181504 created "2016-06-24" @default.
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W2334181504 date "2004-01-05" @default.
W2334181504 modified "2023-09-27" @default.
W2334181504 title "Simulation and Prediction of Realistic Magnetic Positive Positioning for Space Based Fluid Management Systems" @default.
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W2334181504 doi "https://doi.org/10.2514/6.2004-1151" @default.
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