The development of computational fluid dynamics has given us a very powerful tool for investigation of fluid dynamics. However, in order to maintain the progress, it is necessary to improve the numerical algorithms. Nowadays, the high-order methods based on the discontinuous projection seem to have the largest potential for the future. In the work, we used open-source framework Nektar++, which provides the high-order discretization method. We tested the abilities of the framework for computing the compressible sonic and transonic flow. We successfully obtained simulations of the viscous and inviscid flow. We computed the lift and the drag coefficients and showed that for a higher polynomial order we can obtain the same accuracy with less de...
This thesis is concerned with the development and analysis of discontinuous spectral/hp element meth...
Spectral methods for compressible flows are introduced in relation to finite difference and finite e...
Results are presented for finite element computations involving high speed, viscous compressible int...
At high Reynolds numbers, the use of explicit in time compressible flow simulations with spectral/hp...
Nektar++ is an open-source framework that provides a flexible, high-performance and scalable platfor...
The present thesis describes the development of a computational method for the numerical simulation ...
Report developments in the application of spectral methods to two dimensional compressible flows are...
Abstract: The present paper investigates the high-order spectral finite volume method with emphasis ...
Recent progress in the development of robust and accurate discretization methods for the compressibl...
Recent results concerning numerical simulation of shock waves using spectral methods are reviewed. S...
The open-source spectral/hp element code Nektar++ provided by the Imperial College London is evaluat...
High order simulations are necessary in order to capture fine details in resolving supersonic reacti...
summary:A method to approximate the Euler equations is presented. The method is a multi-domain appro...
With this PhD project we developed, and we fully validated a high-resolution numerical model suitabl...
Nektar++ is an open-source framework that provides a flexible, high-performance and scalable platfor...
This thesis is concerned with the development and analysis of discontinuous spectral/hp element meth...
Spectral methods for compressible flows are introduced in relation to finite difference and finite e...
Results are presented for finite element computations involving high speed, viscous compressible int...
At high Reynolds numbers, the use of explicit in time compressible flow simulations with spectral/hp...
Nektar++ is an open-source framework that provides a flexible, high-performance and scalable platfor...
The present thesis describes the development of a computational method for the numerical simulation ...
Report developments in the application of spectral methods to two dimensional compressible flows are...
Abstract: The present paper investigates the high-order spectral finite volume method with emphasis ...
Recent progress in the development of robust and accurate discretization methods for the compressibl...
Recent results concerning numerical simulation of shock waves using spectral methods are reviewed. S...
The open-source spectral/hp element code Nektar++ provided by the Imperial College London is evaluat...
High order simulations are necessary in order to capture fine details in resolving supersonic reacti...
summary:A method to approximate the Euler equations is presented. The method is a multi-domain appro...
With this PhD project we developed, and we fully validated a high-resolution numerical model suitabl...
Nektar++ is an open-source framework that provides a flexible, high-performance and scalable platfor...
This thesis is concerned with the development and analysis of discontinuous spectral/hp element meth...
Spectral methods for compressible flows are introduced in relation to finite difference and finite e...
Results are presented for finite element computations involving high speed, viscous compressible int...