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Development of CFD code evaluation criteria and a procedure for assessing predictive capability and performance (1992)

Sindir, M. M. ; Barson, S. L. ; Lin, S. J. ; [et al.]

In: CASI

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Publication Date: 2013-08-29

Description: Careful validation of computational fluid dynamic (CFD) codes is essential if they are to be used as engineering design tools. Validation must be carried out in a systematic manner to ensure that all code aspects as they apply to the application of interest are understood and, to the greatest extent possible, quantified. A study is being conducted in which a general code validation procedure is defined and demonstrated. A four phase validation procedure is defined in which a series of validation test cases are computed and compared with available analytical solutions and test data. The procedure is demonstrated using the REACT CFD code to compute validation cases for each of the four phases. For phase four, the application of interest, the Space Shuttle Main Engine high pressure fuel turbopump impeller flow field, is computed.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: NASA. Goddard Space Flight Center, Tenth Workshop for Computational Fluid Dynamic Applications in Rocket Propulsion, Part 1; p 109-121

Format: text

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2

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SSME HPOTP impeller backcavity CFD analysis (1992)

Hsu, W. W. ; Lin, S. J.

In: CASI

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Publication Date: 2013-08-29

Description: The ball bearings behind the Space Shuttle Main Engine (SSME) HPOTP preburner pump have a history of premature wear requiring their replacement. Extensive tests have been conducted in an attempt to identify the operating factors that contribute to the wear. It has been conjectured that the coolant inflow velocity swirl pattern can aid bearing operation by matching ball orbit speed and thus affect bearing life. However, control of the velocity distribution up to now could only be achieved by trial and error following hardware testing. Observation of hardware from recent flight and development operation led to the hypothesis that certain assemblies with more extensive grinding patterns on the backwall of the impeller for rotor balancing correlated with improved bearing wear. To analytically evaluate the effect of cavity configuration on the flowfield, 3-D computational fluid dynamics (CFD) analyses of various geometries was successfully executed using REACT3D. Height of the anti-vortex ribs on the stationary wall was varied, as was the configuration of the rotating wall, from smooth to simulations of various grindout patterns. The results obtained indicate the effects of the various geometries and provide valuable guidelines for cavity modification to optimize bearing cooling.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: NASA. Goddard Space Flight Center, Tenth Workshop for Computational Fluid Dynamic Applications in Rocket Propulsion, Part 1; p 361-388

Format: text

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3

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Numerical solutions of 2-D multi-stage rotor/stator unsteady flow interactions (1991)

Lin, S.-J. ; Yang, R.-J.

In: CASI

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Publication Date: 2019-06-28

Description: The Rai method of single-stage rotor/stator flow interaction is extended to handle multistage configurations. In this study, a two-dimensional Navier-Stokes multi-zone approach was used to investigate unsteady flow interactions within two multistage axial turbines. The governing equations are solved by an iterative, factored, implicit finite-difference, upwind algorithm. Numerical accuracy is checked by investigating the effect of time step size, the effect of subiteration in the Newton-Raphson technique, and the effect of full viscous versus thin-layer approximation. Computer results compared well with experimental data. Unsteady flow interactions, wake cutting, and the associated evolution of vortical entities are discussed.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: NASA, Lewis Research Center, Computational Fluid Dynamics Symposium on Aeropropulsion; p 127-142

Format: application/pdf

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4

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Further development of a method for computing three-dimensional subsonic viscous flows in turbofan lobe mixers (1983)

Briley, W. R. ; Lin, S. J. ; Kreskovsky, J. P. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: Procedure for computing subsonic, turbulent flow in turbofan lobe mixers was extended to allow consideration of flow fields in which a swirl component of velocity may be present. Additional, an optional k-lambda turbulence model was added to the procedure. The method of specifying the initial flow field was also modified, allowing parametric specification or radial secondary flow velocities, and making it possible to consider initial flow fields which have significant inlet secondary flow vorticity. A series of example calculations was performed which demonstrate the various capabilities of the modified code. These calculations demonstrate the effects of initial secondary flows of various magnitudes, the effects of swirl, and the effects of turbulence model on the mixing process. The results of these calculations indicate that the initial secondary flows, presumed to be generated within the lobes, play a dominant role in the mixing process, and that the predicted results are relatively insensitive to the turbulence model used.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: NASA-CR-168304 , NAS 1.26:168304 , R83-900011-F

Format: application/pdf

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5

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Multi-blade Navier-Stokes simulations of rotor-stator interaction in a turbine stage (1989)

Lin, S. J. ; Yang, R. J.

In: Other Sources

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Publication Date: 2019-06-28

Description: Turbulent flow fields of multiblade rotor/stator configurations in a turbine stage for the high pressure fuel side turbopump of the space shuttle main engine are obtained using a computer program that can simulate flows in a stage with an unequal number of rotor and stator blades. The calculations are performed on a system of multiple patched and overlaid grids using the unsteady, thin-layer Navier-Stokes equations in two-dimension. Aerodynamic performance of two rotor/stator configurations are studied and compared in the form of pressure contours, Mach number contours, time averaged surface pressure, and unsteady pressure amplitude. Spatial and temporal accuracy of flow calculations along with computation cost are evaluated for the purpose of engineering design applications.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: AIAA PAPER 89-0326

Format: text

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