R. H. Flachbart scite author profile

This paper describes the application of a finite volume procedure for a fluid network to predict fluid transients following a rapid valve closure in a long cryogenic pipeline. The conservation equations of mass, momentum, energy, and the equation of state for real fluids are solved in the fluid network consisting of nodes and branches. In the present formulation, the speed of sound does not appear explicitly in the governing equations. Instead, the equation of state for a real fluid is solved in conjunction with the conservation equations to calculate the compressibility factor for modeling the wave propagation phenomenon. The numerical procedure is also capable of modeling the wave propagation due to phase change and gas-liquid mixture. The predicted history of pressure and velocity variation in a single pipe has been compared to the solution by the method of characteristics (MOC) for liquid oxygen (LO2), liquid hydrogen (LH2), and water (H2O). The paper also presents the numerical solution of pressure surges for a gas-liquid mixture, condensation of vapor, and flow circuit with parallel branches and tailpipe.

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Modeling and test data analysis of a tank rapid chill and fill system for the Advanced Shuttle Upper Stage (ASUS) concept

Flachbart

Hedayat²,

Holt³

2002

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R. H. Flachbart

Testing the Effects of Helium Pressurant on Thermodynamic Vent System Performance With Liquid Hydrogen

Testing of a Spray-Bar Thermodynamic Vent System in Liquid Nitrogen

Testing of a spray bar zero gravity cryogenic vent system for upper stages

Numerical Modeling of Fluid Transients by a Finite Volume Procedure for Rocket Propulsion Systems

Modeling and test data analysis of a tank rapid chill and fill system for the Advanced Shuttle Upper Stage (ASUS) concept

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