Add to ORKGThis research program deals with the application of high-performance computing methods for the analysis of complete jet engines. We have entitled this program by applying the two dimensional parallel aeroelastic codes to the interior gas flow problem of a bypass jet engine. The fluid mesh generation, domain decomposition, and solution capabilities were successfully tested. We then focused attention on methodology for the partitioned analysis of the interaction of the gas flow with a flexible structure and with the fluid mesh motion that results from these structural displacements. This is treated by a new arbitrary Lagrangian-Eulerian (ALE) technique that models the fluid mesh motion as that of a fictitious mass-spring network. New partitio...
Discussed here is a study involving the adaptation of an advanced aeroelastic analysis program to ru...
In this paper we present several significant improvements to both coupled solution methods and sen-s...
In this paper we present several significant improvements to both coupled solution methods and sen-s...
This research program deals with the application of high-performance computing methods to the numeri...
Applications are described of high-performance parallel, computation for the analysis of complete je...
In order to predict the dynamic response of a flexible structure in a fluid flow, the equations of m...
This research program dealt with the application of high-performance computing methods to the numeri...
Applications are described of high-performance computing methods to the numerical simulation of comp...
The objective of this research is to develop computationally efficient methods for solving fluid-str...
A procedure for computing the aeroelasticity of wings on parallel multiple-instruction, multiple-dat...
This paper presents a procedure for computing the aeroelasticity of wing-body configurations on mult...
The objective of this research is to develop computationally efficient methods for solving aeroelast...
Phase I is complete for the development of a Computational Fluid Dynamics parallel code with automat...
The NASA Lewis Research Center is actively involved in the development of expert system technology t...
Phase 1 is complete for the development of a computational fluid dynamics CFD) parallel code with au...
Discussed here is a study involving the adaptation of an advanced aeroelastic analysis program to ru...
In this paper we present several significant improvements to both coupled solution methods and sen-s...
In this paper we present several significant improvements to both coupled solution methods and sen-s...
This research program deals with the application of high-performance computing methods to the numeri...
Applications are described of high-performance parallel, computation for the analysis of complete je...
In order to predict the dynamic response of a flexible structure in a fluid flow, the equations of m...
This research program dealt with the application of high-performance computing methods to the numeri...
Applications are described of high-performance computing methods to the numerical simulation of comp...
The objective of this research is to develop computationally efficient methods for solving fluid-str...
A procedure for computing the aeroelasticity of wings on parallel multiple-instruction, multiple-dat...
This paper presents a procedure for computing the aeroelasticity of wing-body configurations on mult...
The objective of this research is to develop computationally efficient methods for solving aeroelast...
Phase I is complete for the development of a Computational Fluid Dynamics parallel code with automat...
The NASA Lewis Research Center is actively involved in the development of expert system technology t...
Phase 1 is complete for the development of a computational fluid dynamics CFD) parallel code with au...
Discussed here is a study involving the adaptation of an advanced aeroelastic analysis program to ru...
In this paper we present several significant improvements to both coupled solution methods and sen-s...
In this paper we present several significant improvements to both coupled solution methods and sen-s...