Add to ORKGA computational investigation of the near-limit propagation of detonation in lean and rich hydrogen-air mixtures is presented. The calculations were carried out over an equivalence ratio range of 0.4 to 5.0, pressures ranging from 0.2 bar to 1.0 bar and ambient initial temperature. The computations involved solution of the one-dimensional Euler equations with detailed finite-rate chemistry. The numerical method is based on a second-order spatially accurate total-variation-diminishing (TVD) scheme, and a point implicit, first-order-accurate, time marching algorithm. The hydrogen-air combustion was modeled with a 9-species, 19-step reaction mechanism. A multi-level, dynamically adaptive grid was utilized in order to resolve the structure of t...
Numerical simulations have been conducted for large scale hydrogen detonation by solving Euler equat...
A numerical approach has been developed to simulate flame acceleration and deflagration to detonatio...
Oblique detonations are simulated using Euler equations with the detailed chemical reaction models, ...
Propagation and stability of diverging cylindrical detonation in hydrogen air mixture is numerically...
The presentation discusses the construction and application of high-resolution finite volume methods...
Computational Fluid Dynamics solvers are developed for explosion modelling and hazards analysis in H...
In this study, the impact of hydrogen concentration on deflagration to detonation transition (DDT) a...
The transmission of a detonation wave across a layer of inert gas is studied via one- and two dimens...
ABSTRACT The present paper reports on experimentally obtained results of fast propagating deflagrati...
This thesis presents the results of an experimental, analytical, and numerical investigation of the ...
This thesis presents the results of an experimental, analytical, and numerical investigation of the ...
The main goal of this paper is to analyze the exergy losses during the shock and rarefaction wave of...
The present study aims to test the capability of our newly developed density-based solver, Explosion...
This present work had three main aims: 1.) to generate a detonation peninsula for hydrogen in air in...
In this study, one-dimensional detonations in ammonia/hydrogen-air mixtures are numerically investig...
Numerical simulations have been conducted for large scale hydrogen detonation by solving Euler equat...
A numerical approach has been developed to simulate flame acceleration and deflagration to detonatio...
Oblique detonations are simulated using Euler equations with the detailed chemical reaction models, ...
Propagation and stability of diverging cylindrical detonation in hydrogen air mixture is numerically...
The presentation discusses the construction and application of high-resolution finite volume methods...
Computational Fluid Dynamics solvers are developed for explosion modelling and hazards analysis in H...
In this study, the impact of hydrogen concentration on deflagration to detonation transition (DDT) a...
The transmission of a detonation wave across a layer of inert gas is studied via one- and two dimens...
ABSTRACT The present paper reports on experimentally obtained results of fast propagating deflagrati...
This thesis presents the results of an experimental, analytical, and numerical investigation of the ...
This thesis presents the results of an experimental, analytical, and numerical investigation of the ...
The main goal of this paper is to analyze the exergy losses during the shock and rarefaction wave of...
The present study aims to test the capability of our newly developed density-based solver, Explosion...
This present work had three main aims: 1.) to generate a detonation peninsula for hydrogen in air in...
In this study, one-dimensional detonations in ammonia/hydrogen-air mixtures are numerically investig...
Numerical simulations have been conducted for large scale hydrogen detonation by solving Euler equat...
A numerical approach has been developed to simulate flame acceleration and deflagration to detonatio...
Oblique detonations are simulated using Euler equations with the detailed chemical reaction models, ...