Radiative heat transfer is studied numerically for reacting swirling flow in an industrial gas turbine burner operating at a pressure of 15 bar. The reacting field characteristics are computed by Reynolds-averaged Navier–Stokes (RANS) equations using the k-ϵ model with the partially stirred reactor (PaSR) combustion model. The GRI-Mech 2.11 mechanism, which includes nitrogen chemistry, is used to demonstrate the ability of reducing NOx emissions of the combustion system. A photon Monte Carlo (PMC) method coupled with a line-by-line (LBL) spectral model is employed to accurately account for the radiation effects. Optically thin (OT) and PMC–gray models are also employed to show the differences between the simplest radiative calculation model...
Abstract: The paper reviews progress in the development of methods for calculating the properties of...
Although usually neglected in aerodynamics, radiation can present the main heat transfer mechanism i...
Thermal radiation plays a dominant role in heat transfer for most combustion systems. Accurate predi...
Radiative heat transfer is studied numerically for reacting swirling flow in an industrial gas turbi...
Efficient aeronautical engines operate at higher pressure ratios and temperature, creating challenge...
ABSTRACT. A Phton Monte Carlo method combined with a composition PDF method is employed to model rad...
The development of gas turbine combustors is expected to consider the effects of radiation heat tran...
Abstract The impact of heat transfer modelling on Large-Eddy Simulations of a laboratory scale gas t...
5th Eurotherm Conference No 105 on Computational Thermal Radiation in Participating Media, Albi, FRA...
Optimizing heat transfer, decreasing NOx production or improving flame stability, is a major objecti...
The emission of NOx from aero-gas turbine combustors, which in the present generation of designs co...
ABSTRACT Experimental and numerical work has been carried out to determine the wall heat load at the...
Detailed numerical simulations of C2H4/Air coflow laminar sooting flames at atmospheric and elevated...
Enhancing a combustion system requires increased combustion efficiency, fuel savings, and reduction ...
International audienceThermal radiation is the dominant mode of heat transfer in many combustion sys...
Abstract: The paper reviews progress in the development of methods for calculating the properties of...
Although usually neglected in aerodynamics, radiation can present the main heat transfer mechanism i...
Thermal radiation plays a dominant role in heat transfer for most combustion systems. Accurate predi...
Radiative heat transfer is studied numerically for reacting swirling flow in an industrial gas turbi...
Efficient aeronautical engines operate at higher pressure ratios and temperature, creating challenge...
ABSTRACT. A Phton Monte Carlo method combined with a composition PDF method is employed to model rad...
The development of gas turbine combustors is expected to consider the effects of radiation heat tran...
Abstract The impact of heat transfer modelling on Large-Eddy Simulations of a laboratory scale gas t...
5th Eurotherm Conference No 105 on Computational Thermal Radiation in Participating Media, Albi, FRA...
Optimizing heat transfer, decreasing NOx production or improving flame stability, is a major objecti...
The emission of NOx from aero-gas turbine combustors, which in the present generation of designs co...
ABSTRACT Experimental and numerical work has been carried out to determine the wall heat load at the...
Detailed numerical simulations of C2H4/Air coflow laminar sooting flames at atmospheric and elevated...
Enhancing a combustion system requires increased combustion efficiency, fuel savings, and reduction ...
International audienceThermal radiation is the dominant mode of heat transfer in many combustion sys...
Abstract: The paper reviews progress in the development of methods for calculating the properties of...
Although usually neglected in aerodynamics, radiation can present the main heat transfer mechanism i...
Thermal radiation plays a dominant role in heat transfer for most combustion systems. Accurate predi...