Effect of hydrogen addition on NOx formation in high-pressure counter-flow premixed CH4/air flames

Abstract: A laboratory-scale laminar counterflow burner was used to investigate NO formation in high pressure premixed CH4/H2/air flames. New experimental results on NO measurements by LIF were obtained at high pressure in CH4/H2/air flames with H2 content fixed at 20% in the fuel at pressures ranging from 0.1 to 0.7 MPa and an equivalence ratio progressively decreased from 0.74 to 0.6. The effects of hydrogen addition, equivalence ratio and pressure are discussed. These results are satisfactorily compared to the simula… Show more

“…There have been several studies on the combustion of hydrogen as a fuel to generate electricity. The main studies are centered on pure hydrogen combustion [4,5], methanehydrogen blending combustion [6][7][8][9][10], natural gas-hydrogen blending combustion [11,12], ammonia-hydrogen blending combustion [13][14][15][16][17], and other fields. Tan et al [18] investigated the staged combustion of hydrogen using numerical simulation.…”

Numerical Simulation of Hydrogen–Coal Blending Combustion in a 660 MW Tangential Boiler

“…There have been several studies on the combustion of hydrogen as a fuel to generate electricity. The main studies are centered on pure hydrogen combustion [4,5], methanehydrogen blending combustion [6][7][8][9][10], natural gas-hydrogen blending combustion [11,12], ammonia-hydrogen blending combustion [13][14][15][16][17], and other fields. Tan et al [18] investigated the staged combustion of hydrogen using numerical simulation.…”

Numerical Simulation of Hydrogen–Coal Blending Combustion in a 660 MW Tangential Boiler

A Comparative Study of Chemical-Kinetic Mechanisms for Combustion of Methane/Hydrogen/Air Mixtures

Numerical investigation of pressure and H2O dilution effects on NO formation and reduction pathways in pure hydrogen MILD combustion