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Three-dimensional calculations of supersonic reacting flows using an LU scheme (1991)

Shuen, Jian-Shun ; Tsai, Y.-L. Peter ; Yu, Sheng-Tao

In: CASI

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Publication Date: 2013-08-31

Description: A 3-D numerical program that incorporates comprehensive real gas property models was developed to simulate supersonic reacting flows. The code employs an implicit, finite volume, Lower-Upper (LU), time-marching method to solve the complete Navier-Stokes and species equations in a fully-coupled and efficient manner. A chemistry model with 9 species and 18 reaction steps is adopted in the program to represent the chemical reactions of H2 and air. To demonstrate the capability of the program, flow fields of underexpanded hydrogen jets transversely injected into the supersonic airstream inside the combustors of scramjets are calculated. Results clearly depict the flow characteristics, including the shock structure, the separated flow regions around the injector, and the distribution of the combustion products.

Keywords: AERODYNAMICS

Type: NASA. Lewis Research Center, Center for Modeling of Turbulence and Transition (CMOTT). Research Briefs: 1990; p 151

Format: application/pdf

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2

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Three-dimensional calculation of supersonic reacting flows using an LU scheme (1989)

Shuen, Jian-Shun ; Tsai, Y-L Peter ; Yu, Sheng-Tao

In: CASI

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Publication Date: 2013-08-31

Description: A new three-dimensional numerical program incorporated with comprehensive real gas property models was developed to simulate supersonic reacting flows. The code employs an implicit finite volume, Lower-Upper (LU) time-marching method to solve the complete Navier-Stokes and species equations in a fully-coupled and very efficient manner. A chemistry model with nine species and eighteen reaction steps are adopted in the program to represent the chemical reaction of H2 and air. To demonstrate the capability of the program, flow fields of underexpanded hydrogen jets transversely injected into supersonic air stream inside the combustors of scramjets are calculated. Results clearly depict the flow characteristics, including the shock structure, separated flow regions around the injector, and the distribution of the combustion products.

Keywords: AERODYNAMICS

Type: NASA, Ames Research Center, NASA Computational Fluid Dynamics Conference. Volume 2: Sessions 7-12; p 43-57

Format: application/pdf

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Recent update of the RPLUS2D/3D codes (1991)

Tsai, Y.-L. Peter

In: CASI

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Publication Date: 2019-06-28

Description: The development of the RPLUS2D/3D codes is summarized. These codes utilize LU algorithms to solve chemical non-equilibrium flows in a body-fitted coordinate system. The motivation behind the development of these codes is the need to numerically predict chemical non-equilibrium flows for the National AeroSpace Plane Program. Recent improvements include vectorization method, blocking algorithms for geometric flexibility, out-of-core storage for large-size problems, and an LU-SW/UP combination for CPU-time efficiency and solution quality.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: NASA, Lewis Research Center, Computational Fluid Dynamics Symposium on Aeropropulsion; p 593-607

Format: application/pdf

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4

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Comparative study of computational efficiency of two LU schemes for non-equilibrium reacting flows (1990)

Tsai, Y.-L. Peter ; Hsieh, K.-C.

In: Other Sources

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Publication Date: 2019-06-28

Description: The systems of equations governing chemically nonequilibrium flows are solved numerically by two lower-upper(LU) algorithms, namely, LU-SSOR (Yoon and Jameson, 1987) and LU-SW (Steger and Warming, 1981). The methods of flux-Jacobian splitting differentiate the two LU algorithms. The LU-SSOR gives a simpler implicit operator with less temporal damping, while the LU-SW converges faster but requires more computation for each iteration. Relative efficiencies and mutual merits of these two LU algorithms are compared. The results show that LU-SW with upwind-differenced right-hand-side gives the best convergence.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: AIAA PAPER 90-0396

Format: text

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5

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Three-dimensional calculation of supersonic reacting flows using an LU scheme (1989)

Tsai, Y.-L. Peter ; Shuen, Jian-Shun ; Yu, Sheng-Tao

In: Other Sources

add to mindlist on the mindlist

Details

Publication Date: 2019-06-28

Description: A new three-dimensional numerical program incorporated with comprehensive real gas property models has been developed to simulate supersonic reacting flows. The code employs an implicit finite volume, Lower-Upper (LU) time-marching method to solve the complete Navier-Stokes and species equations in a fully-coupled and very efficient manner. A chemistry model with nine species and eighteen reaction steps are adopted in the program to represent the chemical reaction of H2 and air. To demonstrate the capability of the program, flow fields of underexpanded hydrogen jets transversely injected into supersonic air stream inside the combustors of scramjets are calculated. Results clearly depict the flow characteristics, including the shock structure, separated flow regions around the injector, and the distribution of the combustion products.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: AIAA PAPER 89-0391

Format: text

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