Laser induced spark ignition of methane-oxygen mixturesThe use of laser-induced spark ignition in liquid-propellant rocket engines is investigated by studying the ignition of mixtures of methane and oxygen. Specific attention is given to minimum ignition energy, spark efficiency, the effect of ignition energy on flame kernels, the effect of laser wavelength, and comparisons with electrode-spark ignition. A pulsed frequency-doubled Nd:YAG laser is tested at atmospheric pressure and 296 K under both laminar-premixed and turbulent-incompletely-mixed conditions. Laser sparks of 10 and 40 mJ and an electrode spark of 6 mJ are measured for flame-kernel radius as a function of time with pulsed laser shadowgraphy. Initially, the flame-kernel size is similar to those predicted by the Taylor spherical-blast-wave model, and subsequent growth is characterized by rapid acceleration. The growth rate is significantly affected by the effect of incomplete fuel-oxidizer mixing.
Document ID
19910067842
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Lee, T. W. (Pennsylvania State Univ. University Park, PA, United States)
Santavicca, D. A. (NASA Propulsion Engineering Research Center; Pennsylvania State University University Park, United States)
Ho, C. M. (Pennsylvania State Univ. University Park, PA, United States)
Reilly, B. J. (Pennsylvania State Univ. University Park, PA, United States)