Add to ORKGThis thesis is concerned with the issue of finding an accurate, efficient and robust numerical solution technique for solving mathematical models of reactive flow. Two main issues of concern when solving these problems are large computational costs and numerical instabilities and inaccuracies. Over the past decades, many numerical techniques have been suggested for the solution of reacting flow problems. The work in this thesis is part of the continuing trend to find schemes which can solve reacting flow problems efficiently and robustly
The objective of this study is to gain a deeper understanding of the behavior of high order shock-ca...
In this study various numerical schemes for simulating 2D laminar reacting gas flows, as typically f...
Modelling and Simulation of Reactive Flows presents information on modeling and how to numerically s...
In this thesis we develop and analyze fractional step numerical schemes for reactive flows. The spac...
A two-dimensional time-accurate numerical model to simulate complex reacting flowfields in chemical ...
Computational fluid dynamics has reached a stage where flow field in practical situation can be pred...
We discuss recent developments in the application of high-order adaptive mesh refinement constructio...
1. Motivation and objectives Consider 3D reactive Euler equations of the form Ut + F(U)x + G(U)y + H...
In this paper we describe a numerical algorithm for integrating the multicomponent, reacting, compre...
summary:During the last years the interest in the numerical simulation of reacting flows has grown c...
A numerical algorithm was developed for solving the equations describing chemically reacting superso...
In this thesis, numerical solution procedures are developed for simulating chemical phenomena. Mathe...
Realistic numerical simulations of pyrolysis and combustion require not only accurate modeling of fl...
The backward Euler scheme was used to solve a large system of inviscid flow and chemical rate equati...
In the study of high speed flows at high altitudes, such as that encountered by re-entry spacecrafts...
The objective of this study is to gain a deeper understanding of the behavior of high order shock-ca...
In this study various numerical schemes for simulating 2D laminar reacting gas flows, as typically f...
Modelling and Simulation of Reactive Flows presents information on modeling and how to numerically s...
In this thesis we develop and analyze fractional step numerical schemes for reactive flows. The spac...
A two-dimensional time-accurate numerical model to simulate complex reacting flowfields in chemical ...
Computational fluid dynamics has reached a stage where flow field in practical situation can be pred...
We discuss recent developments in the application of high-order adaptive mesh refinement constructio...
1. Motivation and objectives Consider 3D reactive Euler equations of the form Ut + F(U)x + G(U)y + H...
In this paper we describe a numerical algorithm for integrating the multicomponent, reacting, compre...
summary:During the last years the interest in the numerical simulation of reacting flows has grown c...
A numerical algorithm was developed for solving the equations describing chemically reacting superso...
In this thesis, numerical solution procedures are developed for simulating chemical phenomena. Mathe...
Realistic numerical simulations of pyrolysis and combustion require not only accurate modeling of fl...
The backward Euler scheme was used to solve a large system of inviscid flow and chemical rate equati...
In the study of high speed flows at high altitudes, such as that encountered by re-entry spacecrafts...
The objective of this study is to gain a deeper understanding of the behavior of high order shock-ca...
In this study various numerical schemes for simulating 2D laminar reacting gas flows, as typically f...
Modelling and Simulation of Reactive Flows presents information on modeling and how to numerically s...