Effects of CO₂ Dilution on Laminar and Turbulent Combustion of Hydrogen Mixtures Simulating Coal Gasification Gas

Abstract

Combustion properties of coal gasification gas with CO₂ dilution were investigated for a newly proposed IGCC power generation system with CO₂ capture. In this system, the gasification gas is burned under high CO₂ concentration atmosphere. In order to clarify the combustion properties of the gasification gas under such atmosphere, the laminar and turbulent burning velocities were investigated for outwardly propagating stoichiometric H₂/O₂/CO₂ flames at the mixture pressures of 0.10 to 0.50MPa, comparing them with those of H₂/O₂/N₂ flames. The unstretched laminar burning velocities of H₂/O₂/CO₂ flames were smaller than those of H₂/O₂/N₂ flames. The ratios of the turbulent burning velocity at the flame radius 30mm, u_tn(30mm) to the unstretched laminar burning velocity were found to be larger than those of H₂/O₂/N₂ flames at the same turbulence intensity. Increase in the turbulence Karlovitz number and decrease in the Lewis number by the CO₂ dilution might cause the increase in the ratio of the turbulent burning velocity to unstretched laminar one of H₂/O₂/CO₂ flames.