An industrial burner operating in the MILD combustion regime through internal recirculation of exhaust gases has been characterized numerically. To develop a self-sufficient numerical model of the burner, two subroutines are coupled to the CFD solver to model the air preheater section and heat losses from the burner through radiation. The resulting model is validated against experimental data on species concentration and temperature. A 3-dimensional CFD model of the burner is compared to an axisymmetric model, which allows considerable computational saving, but neglects some important burner features such as the presence of recirculation windows. Errors associated with the axisymmetric model are evaluated and discussed, as well as possible ...
Copyright © 2008 The Combustion InstituteThis study describes the performance and stability characte...
The thesis regards the CFD numerical modelling of a novel cyclonic burner that operates under the in...
Abstract—Understanding of how and where NOx formation occurs in industrial burner is very important ...
This paper is concerned with the application of a rapidly developing combustion technology [1] that ...
In a world increasingly concerned with fuel prices, sustainability and the environment, energy effic...
This paper presents computational and experimental results on a new burner configuration with a mild...
This paper discusses the design and development of a burner for MILD/Flameless Combustion processes....
This paper discusses the design and development of the Moderate and Intense Low oxygen Dilution (MIL...
This paper discusses the design and development of the Moderate and Intense Low oxygen Dilution (MIL...
International audienceThe solution for dynamic modeling of reheating furnaces requires a burner mode...
This paper discusses the development of the combustion furnace for the Moderate and Intense Low oxyg...
AbstractCombustion process in furnaces is affected by various factors, so that the aim of present re...
In this paper, a new strategy for scaling burners based on "mild combustion" is evolved and adopted...
In this article a combustor burning hydrogen and air in mild regime is numerically studied by means ...
In this article a combustor burning hydrogen and air in mild regime is numerically studied by means ...
Copyright © 2008 The Combustion InstituteThis study describes the performance and stability characte...
The thesis regards the CFD numerical modelling of a novel cyclonic burner that operates under the in...
Abstract—Understanding of how and where NOx formation occurs in industrial burner is very important ...
This paper is concerned with the application of a rapidly developing combustion technology [1] that ...
In a world increasingly concerned with fuel prices, sustainability and the environment, energy effic...
This paper presents computational and experimental results on a new burner configuration with a mild...
This paper discusses the design and development of a burner for MILD/Flameless Combustion processes....
This paper discusses the design and development of the Moderate and Intense Low oxygen Dilution (MIL...
This paper discusses the design and development of the Moderate and Intense Low oxygen Dilution (MIL...
International audienceThe solution for dynamic modeling of reheating furnaces requires a burner mode...
This paper discusses the development of the combustion furnace for the Moderate and Intense Low oxyg...
AbstractCombustion process in furnaces is affected by various factors, so that the aim of present re...
In this paper, a new strategy for scaling burners based on "mild combustion" is evolved and adopted...
In this article a combustor burning hydrogen and air in mild regime is numerically studied by means ...
In this article a combustor burning hydrogen and air in mild regime is numerically studied by means ...
Copyright © 2008 The Combustion InstituteThis study describes the performance and stability characte...
The thesis regards the CFD numerical modelling of a novel cyclonic burner that operates under the in...
Abstract—Understanding of how and where NOx formation occurs in industrial burner is very important ...