This report covers work done on the research project Analysis and Computation of Internal Flow Field in a Scramjet Engine. The work is supported by the NASA Langley Research Center (Computational Methods Branch of the High-Speed Aerodynamics Division) through research grant NAG1-423. The governing equations of two-dimensional chemically-reacting flows are presented together with the global two-step chemistry model. The finite-difference algorithm used is illustrated and the method of circumventing the stiffness is discussed. The computer program developed is used to solve two model problems of a premixed chemically-reacting flow. The results obtained are physically reasonable
This document is divided into two parts. Part A, on turbulent transport of chemical species in compr...
A new upwind, parabolized Navier-Stokes (PNS) code has been developed to compute two- and three-dime...
A numerical solution for chemically reacting supersonic gas-particle flows in rocket nozzles and exh...
A numerical algorithm was developed for solving the equations describing chemically reacting superso...
The national program to develop a trans-atmospheric vehicle has kindled a renewed interest in the mo...
This final report summarizes the research accomplished. The research performed during the grant peri...
The physical phenomena within supersonic flows that sustain chemical reactions are investigated. An ...
The physical phenomena involved when a supersonic flow undergoes chemical reaction are discussed. De...
One critical element in the design of a Scramjet is the detailed understanding of the complex flow f...
A computer program for calculating internal supersonic flow fields with chemical reactions and shock...
Future aerospace propulsion concepts involve the combination of liquid or gaseous fuels in a highly ...
The two-dimensional Navier-Stokes and species continuity equations are used to investigate supersoni...
Research has been undertaken to achieve an improved understanding of physical phenomena present when...
A single step second-order accurate flux-difference-splitting method has been developed for solving ...
A numerical study of three dimensional chemically reacting and non-reacting flowfields is conducted ...
This document is divided into two parts. Part A, on turbulent transport of chemical species in compr...
A new upwind, parabolized Navier-Stokes (PNS) code has been developed to compute two- and three-dime...
A numerical solution for chemically reacting supersonic gas-particle flows in rocket nozzles and exh...
A numerical algorithm was developed for solving the equations describing chemically reacting superso...
The national program to develop a trans-atmospheric vehicle has kindled a renewed interest in the mo...
This final report summarizes the research accomplished. The research performed during the grant peri...
The physical phenomena within supersonic flows that sustain chemical reactions are investigated. An ...
The physical phenomena involved when a supersonic flow undergoes chemical reaction are discussed. De...
One critical element in the design of a Scramjet is the detailed understanding of the complex flow f...
A computer program for calculating internal supersonic flow fields with chemical reactions and shock...
Future aerospace propulsion concepts involve the combination of liquid or gaseous fuels in a highly ...
The two-dimensional Navier-Stokes and species continuity equations are used to investigate supersoni...
Research has been undertaken to achieve an improved understanding of physical phenomena present when...
A single step second-order accurate flux-difference-splitting method has been developed for solving ...
A numerical study of three dimensional chemically reacting and non-reacting flowfields is conducted ...
This document is divided into two parts. Part A, on turbulent transport of chemical species in compr...
A new upwind, parabolized Navier-Stokes (PNS) code has been developed to compute two- and three-dime...
A numerical solution for chemically reacting supersonic gas-particle flows in rocket nozzles and exh...