Stretch effects on the burning velocity of turbulent premixed hydrogen/air flames

The effects of unsteady strain rate on the burning velocity of hydrogen/air premixed flames have been studied in an opposed nozzle configuration. The numerical method employs adaptive time integration of a system of differential-algebraic equations. Detailed hydrogen/air kinetic mechanism and transp

Turbulent burning velocity St is determined for six premixed V-shaped turbulent flames. In addition to defining St with respect to the conventional flame surface, a definition based on an effective flame orientation is proposed. The results based on the flame surface increase significantly with dist

The burning rates and surface characteristics of hydrogen-enriched turbulent lean premixed methaneeair flames were experimentally studied by laser tomography visualization method using a V-shaped flame configuration. Turbulent burning velocity was measured and the variation of flame surface characte

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