Time-resolved LIF of OH in the flame front of premixed and diffusion flames at atmospheric pressure

Time-resolved fluorescence measurements are reported for the OH radical in premixed, laminar atmospheric-pressure flames, following excitation of the u' = 1 and v' 30 levels of the A rE+ state. OH radicals were excited using a picosecond dye laser system based on the distributed feedback principle.

Spatially and spectrally resolved chemiluminescence were measured in the reaction zone of a laminar premixed methane/air flame at equivalence ratios of 0.9-1.5 in atmospheric pressure using a new Cassegrain mirror system and a spectrometer with an intensified charge-coupled device. The measurement v

The effects of hydrogen addition on NO formation in fuel-rich, burner-stabilized methane, ethane and propane flames are reported. Profiles of temperature and NO mole fraction were obtained using spontaneous Raman scattering and laser-induced fluorescence (LIF), respectively. Experiments were perform

A dye laser has been used to excite fluorescence from OH, CN, NH, NO, CH, and C 2 in laboratory premixed flames at atmospheric pressure in connection with an investigation of the chemistry of the nitrogen compounds. OH concentrations were measured independently in a variety of flames by a method inv