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Stability and Suppression of Turbulence in Relaxing Molecular Gas Flows (Hardcover, 1st ed. 2017)
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Stability and Suppression of Turbulence in Relaxing Molecular Gas Flows (Hardcover, 1st ed. 2017)
Series: Fluid Mechanics and Its Applications, 117
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This book presents an in-depth systematic investigation of a
dissipative effect which manifests itself as the growth of
hydrodynamic stability and suppression of turbulence in relaxing
molecular gas flows. The work describes the theoretical foundations
of a new way to control stability and laminar turbulent transitions
in aerodynamic flows. It develops hydrodynamic models for
describing thermal nonequilibrium gas flows which allow the
consideration of suppression of inviscid acoustic waves in 2D shear
flows. Then, nonlinear evolution of large-scale vortices and
Kelvin-Helmholtz waves in relaxing shear flows are studied.
Critical Reynolds numbers in supersonic Couette flows are
calculated analytically and numerically within the framework of
both linear and nonlinear classical energy hydrodynamic stability
theories. The calculations clearly show that the relaxation process
can appreciably delay the laminar-turbulent transition. The aim of
the book is to show the new dissipative effect, which can be used
for flow control and laminarization. This volume will be of
interest and useful to mechanical engineers, physicists, and
mathematicians who specialize in hydrodynamic stability theory,
turbulence, and laminarization of flows.
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