Based on new
information obtained on free microjets, this book explains the latest phenomena
in flame evolution in the presence of a transverse acoustic field with round
and plane propane microjet combustion. It gives an overview of recent
experimental results on instability and dynamics of jets at low Reynolds
numbers and provides the reader, step by step, with the milestones and recent
advances in jet flow stability and combustion. Readers will also discover a
clarification of the differences between top-hat and parabolic round and plane
jet instability.
Chapters demonstrate features of the interaction between jet and crossflow, and
how experimental data testify to similarities of the perturbed flow patterns of
laminar and turbulent round jets. A similar response of the jets to external
acoustic oscillations is shown, as well as the peculiarities of the effect of a
transverse acoustic field on downstream evolution of round and plane macro- and
microjets. Basic features of round and plane, macro and micro jets' evolution
affected by initial conditions at the nozzle outlet and by environmental
perturbations are highlighted.
Students of fluid mechanics will gain a solid foundation in hydrodynamic
stability and combustion of subsonic jet flow and researchers will value the
presentation of special aspects of instability and transition. The work treats
both theoretical and practical facets, and it includes supplementary material
such as PowerPoint multimedia notes based on results of laboratory scientific
experiments.