Add to ORKGWe present an adaptive algorithm for low Mach number reacting flows with complex chemistry. Our approach uses a form of the low Mach number equations that discretely conserves both mass and energy. The discretization methodology is based on a robust projection formulation that accommodates large density contrasts. The algorithm uses an operator-split treatment of stiff reaction terms and includes effects of differential diffusion. The basic computational approach is embedded in an adaptive projection framework that uses structured hierarchical grids with subcycling in time that preserves the discrete conservation properties of the underlying single-grid algorithm. We present numerical examples illustrating the performance of the method on b...
We develop an adaptive finite element algorithm for reactive flow simulations. The underlying equati...
A solution-adaptive Navier-Stokes technique is presented which incorporates a fully implicit solutio...
Despite the onset of peta-scale computing, simulations of reacting flows with detailed chemistry is ...
We present an adaptive algorithm for low Mach number reacting flows with complex chemistry. Our appr...
We present a summary of recent progress on the development and application of adaptive mesh refineme...
In this paper the authors present an adaptive projection method for modeling unsteady, low-Mach reac...
Using examples from active research areas in combustion andastrophysics, we demonstrate a computatio...
We describe recent developments in the design and implementation of finite element methods for the N...
We outline a high-order adaptive mesh refinement construction for low Mach number reacting flow comp...
AbstractAn algorithm is presented for numerical simulations of time-dependent low Mach number variab...
The goal of this work was to design new fast algorithms that could be used to solve fluid flows at a...
Using examples from active research areas in combustion and astrophysics, we demonstrate a computat...
The goal of this work was to design new fast algorithms that could be used to solve fluid flows at a...
We present a new tabulation strategy for the numerical integration of chemical reacting flow process...
We discuss recent developments in the application of high-order adaptive mesh refinement constructio...
We develop an adaptive finite element algorithm for reactive flow simulations. The underlying equati...
A solution-adaptive Navier-Stokes technique is presented which incorporates a fully implicit solutio...
Despite the onset of peta-scale computing, simulations of reacting flows with detailed chemistry is ...
We present an adaptive algorithm for low Mach number reacting flows with complex chemistry. Our appr...
We present a summary of recent progress on the development and application of adaptive mesh refineme...
In this paper the authors present an adaptive projection method for modeling unsteady, low-Mach reac...
Using examples from active research areas in combustion andastrophysics, we demonstrate a computatio...
We describe recent developments in the design and implementation of finite element methods for the N...
We outline a high-order adaptive mesh refinement construction for low Mach number reacting flow comp...
AbstractAn algorithm is presented for numerical simulations of time-dependent low Mach number variab...
The goal of this work was to design new fast algorithms that could be used to solve fluid flows at a...
Using examples from active research areas in combustion and astrophysics, we demonstrate a computat...
The goal of this work was to design new fast algorithms that could be used to solve fluid flows at a...
We present a new tabulation strategy for the numerical integration of chemical reacting flow process...
We discuss recent developments in the application of high-order adaptive mesh refinement constructio...
We develop an adaptive finite element algorithm for reactive flow simulations. The underlying equati...
A solution-adaptive Navier-Stokes technique is presented which incorporates a fully implicit solutio...
Despite the onset of peta-scale computing, simulations of reacting flows with detailed chemistry is ...