IGTC-40 Numerical Simulation of Premixed Flame Combustion using Systematically Reduced Reaction Mechanisms(Session B-5 NUMERICAL ANALYSIS OF COMBUSTION)
スポンサーリンク
概要
- 論文の詳細を見る
The structure of a 3D-Navier-Stokes code is described, which has been enlarged for multicomponent fluids. A systematically reduced 6-step kinetics is presented, which was implemented in the code in order to perform combined flow and combustion computations. With this reduced mechanism the oxidation of CH_4, H_2, CO and a combination of these fuels is possible. Results of a stoichiometric premixed methane flame combustion simulation in a 2D matrix burner configuration are presented. These are compared with data obtained through runs at a test rig, which is also described. Finally the necessity of a detailed flame combustion simulation is discussed exemplarily by two applications, i.e. precise pollutant prediction and the analysis of dynamical flame behaviour.
- 社団法人日本ガスタービン学会の論文
著者
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Kruger U.
Institute Of Steam And Gas Turbines Aachen University Of Technology
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Bohn D.
Institute of Steam and Gas Turbines, Aachen University of Technology
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Matouschek G.
Institute of Steam and Gas Turbines, Aachen University of Technology
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Matouschek G.
Institute Of Steam And Gas Turbines Aachen University Of Technology
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Bohn D.
Institute Of Steam And Gas Turbines Aachen University Of Technology
関連論文
- IGTC-40 Numerical Simulation of Premixed Flame Combustion using Systematically Reduced Reaction Mechanisms(Session B-5 NUMERICAL ANALYSIS OF COMBUSTION)
- IGTC-108 Combined Aerodynamic and Thermal Analysis of a High-Pressure Turbine Nozzle Guide Vane(Organized Session I ADVANCED COMPUTATIONAL SIMULATION AND DESIGN)