As part of the development of technologies for rocket engines that will power spacecraft to the Moon and Mars, a program was initiated to develop a conceptual upper stage engine with wide flow range capability. The resulting expander cycle engine design employs a radial turbine to allow higher pump speeds and efficiencies. In this paper, the design and analysis of the pump section of the engine are discussed. One-dimensional meanline analyses and three-dimensional unsteady computational fluid dynamics simulations were performed for the pump stage. Configurations with both vaneless and vaned diffusers were investigated. Both the meanline analysis and computational predictions show that the pump will meet the performance objectives. Additional details describing the development of a water flow facility test are also presented.

Volume Subject Area:
Symposium on Advances in Numerical Modeling of Aerodynamics and Hydrodynamics in Turbomachinery
Topics:
Cycles, Design, Engines, Pumps, Flow (Dynamics), Computational fluid dynamics, Diffusers, Engine design, Engineering simulation, Rocket engines, Simulation, Space vehicles, Turbines, Water
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Copyright © 2006
 by ASME
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