Add to ORKGLevchenko and Solov'ev (1972, 1974) have developed a stability theory for space periodic flows, assuming that the Floquet theory is applicable to partial differential equations. In the present paper, this approach is extended to unsteady periodic flows. A complete unsteady formulation of the stability problem is obtained, and the stability characteristics over an oscillating period are determined from the solution of the problem. Calculations carried out for an oscillating incompressible boundary layer on a plate showed that the boundary layer flow may be regarded as a locally parallel flow
AbstractA Floquet theory is presented for the stability of boundary layer flows. The spectrum of the...
The fundamentals of stability theory, its chief results, and the physical mechanisms at work are pre...
The governing equations for an unsteady turbulent boundary layer on a swept infinite cylinder, compo...
AbstractA Floquet theory is presented for the stability of boundary layer flows. The spectrum of the...
The state of the art in the field of unsteady boundary layers is outlined with emphasis on turbulent...
A novel solution procedure is presented for undertaking the linear stability eigenmodal analysis of ...
The aim of this article is to determine the stability characteristics of a Rayleigh layer, which is ...
The instabilities of some spatially and/or time-periodic flows are discussed, in particular, flows w...
A finite difference method has been developed to calculate the unsteady boundary layer over an oscil...
The stability of the boundary layer generated by the harmonic oscillations of a plate in its own pla...
Experiments on an unsteady turbulent boundary layer are reported in which the upstream portion of th...
The linear stability theory was applied to the problem of boundary layer transition in incompressibl...
The evolution of unsteady boundary layers on oscillating airfoils is investigated by solving the gov...
A rational foundation is provided for the application of the linear stability theory of parallel she...
An analysis and calculations on the stability of the free laminar boundary layer between parallel st...
AbstractA Floquet theory is presented for the stability of boundary layer flows. The spectrum of the...
The fundamentals of stability theory, its chief results, and the physical mechanisms at work are pre...
The governing equations for an unsteady turbulent boundary layer on a swept infinite cylinder, compo...
AbstractA Floquet theory is presented for the stability of boundary layer flows. The spectrum of the...
The state of the art in the field of unsteady boundary layers is outlined with emphasis on turbulent...
A novel solution procedure is presented for undertaking the linear stability eigenmodal analysis of ...
The aim of this article is to determine the stability characteristics of a Rayleigh layer, which is ...
The instabilities of some spatially and/or time-periodic flows are discussed, in particular, flows w...
A finite difference method has been developed to calculate the unsteady boundary layer over an oscil...
The stability of the boundary layer generated by the harmonic oscillations of a plate in its own pla...
Experiments on an unsteady turbulent boundary layer are reported in which the upstream portion of th...
The linear stability theory was applied to the problem of boundary layer transition in incompressibl...
The evolution of unsteady boundary layers on oscillating airfoils is investigated by solving the gov...
A rational foundation is provided for the application of the linear stability theory of parallel she...
An analysis and calculations on the stability of the free laminar boundary layer between parallel st...
AbstractA Floquet theory is presented for the stability of boundary layer flows. The spectrum of the...
The fundamentals of stability theory, its chief results, and the physical mechanisms at work are pre...
The governing equations for an unsteady turbulent boundary layer on a swept infinite cylinder, compo...