Structure of laminar coflow spray flames at different pressures

This paper presents new experimental results on cryogenic jet flames formed by a coaxial injector at a pressure of 70 bar, which approaches the pressures found in rocket engines. This element, fed with liquid oxygen and gaseous hydrogen, is placed in a square combustion chamber equipped with quartz

An experimental and numerical study on laminar burning velocities of hydrogen/air flames was performed at low pressure, room temperature, and different equivalence ratios. Flames were generated using a small contoured slot-type nozzle burner (5 mm  13.8 mm). Measurements of laminar burning veloci

The theory of hydrodynamic and thermodiffusional stability of flames is reviewed including the stability of spherical flames. The convex form of the flame propagating in a tube in the absence of gravity is found to be a manifestation of the Landau hydrodynamic instability. The development of small w

The effects of low pressure on the laminar burning velocity and flame stability of H 2 /CO mixtures and equimolar H 2 /CO mixtures diluted with N 2 and CO 2 were studied experimentally and theoretically. Experiments were conducted at real sub-atmospheric conditions in three places located at high al

Detailed modeling of soot particle nucleation, growth and oxidation in laminar premixed ethylene-air flames at a pressure of 10 bar is presented. The employed kinetic model of soot formation, developed and tested earlier for subatmospheric and atmospheric flames, can quantitatively describe the expe