Add to ORKGHere we are concerned with describing the dynamics of multi-dimensional detonation as a self-propagating surface. In what follows, we discuss examples of propagating surfaces, from formulations in combustion and heat transfer to which level-set methods apply.Air Force Office of Scientific Research 94/10; US Air Force Wright Laboratory 94/1
ii This design and applications project consists in the development of a parallel extension for a tw...
We address the problem of generalizing sonic conditions to a three-dimensional unsteady self-sustain...
In the design of explosive systems the generic problem that one must consider is the propagation of ...
We give an extension of the level set formuiation of Osher and Sethian, which describes the dynamics...
We present an accurate and fast wave tracking method that uses parametric representations of tracked...
A detonation is a combustion-driven shock wave. Typically, a detonation will consist of an inert sho...
Understanding the fundamental processes of detonation is essential for both energy and safety issues...
The WBL model for detonation wave propagation was extended to allow more general initiation in the c...
A hybrid level-set method in two and three dimensions for modeling detonation and combustion problem...
We review recent progress in gaseous detonation experiment, modeling, and simulation. We focus on th...
The existence and structure of steady gaseous detonation propagating in a packed bed of solid inert ...
Abstract. A steady planar self-sustained detonation has a sonic surface in the reaction zone that re...
The propagation of non-ideal detonations arising from friction, heat transfer and reactions steps in...
When the detonation reaction-zone length, {eta}{sub r}, is short in comparison to the dimensions of ...
This thesis comprises of the study of two physical problems. In the first half, we look at molecula...
ii This design and applications project consists in the development of a parallel extension for a tw...
We address the problem of generalizing sonic conditions to a three-dimensional unsteady self-sustain...
In the design of explosive systems the generic problem that one must consider is the propagation of ...
We give an extension of the level set formuiation of Osher and Sethian, which describes the dynamics...
We present an accurate and fast wave tracking method that uses parametric representations of tracked...
A detonation is a combustion-driven shock wave. Typically, a detonation will consist of an inert sho...
Understanding the fundamental processes of detonation is essential for both energy and safety issues...
The WBL model for detonation wave propagation was extended to allow more general initiation in the c...
A hybrid level-set method in two and three dimensions for modeling detonation and combustion problem...
We review recent progress in gaseous detonation experiment, modeling, and simulation. We focus on th...
The existence and structure of steady gaseous detonation propagating in a packed bed of solid inert ...
Abstract. A steady planar self-sustained detonation has a sonic surface in the reaction zone that re...
The propagation of non-ideal detonations arising from friction, heat transfer and reactions steps in...
When the detonation reaction-zone length, {eta}{sub r}, is short in comparison to the dimensions of ...
This thesis comprises of the study of two physical problems. In the first half, we look at molecula...
ii This design and applications project consists in the development of a parallel extension for a tw...
We address the problem of generalizing sonic conditions to a three-dimensional unsteady self-sustain...
In the design of explosive systems the generic problem that one must consider is the propagation of ...