Affiliations: Mechanical, Aerospace and Manufacturing Engineering
Department, PO Box 88, University of Manchester Institute of Science and
Technology, Manchester M60 1QD, United Kingdom. E-mail:
[email protected] | Mechanical, Aerospace and Manufacturing Engineering
Department, PO Box 88, University of Manchester Institute of Science and
Technology, Manchester M60 1QD, United Kingdom. E-mail: [email protected]
Abstract: Stereoscopic imaging and reconstruction technique is introduced to
reconstruct the flame structures that are subject to acoustic excitation. The
laminar diffusion flame under investigation was created in a cylindrical tube
and excited by a loudspeaker. Stereo images were taken at a shutter speed of
1/10000 th second using a 'stereo camera' and the depth cue of the flame
structures along the camera viewing direction were then computed using machine
vision methodology. By visualizing the computed three-dimensional flame models,
as well as judging the corresponding attribute such as surface gradient, the
understanding of the flame and acoustic wave interaction could be improved.