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＜電子ブック＞
Bifurcations in Flow Patterns : Some Applications of the Qualitative Theory of Differential Equations in Fluid Dynamics / by P.G. Bakker
(Nonlinear Topics in the Mathematical Sciences ; 2)

版	1st ed. 1991.
出版者	(Dordrecht : Springer Netherlands : Imprint: Springer)
出版年	1991
本文言語	英語
大きさ	XI, 211 p : online resource
著者標目	*Bakker, P.G author SpringerLink (Online service)
件　名	LCSH:Physics LCSH:Mechanics LCSH:Mathematics FREE:Classical and Continuum Physics FREE:Classical Mechanics FREE:Applications of Mathematics
一般注記	I Some Elements Of The Qualitative Theory Of Differential Equations -- 1. Phase space representation of a dynamical system -- 2. Phase portraits near singular points -- 3. Topological structure of phase portraits, structural stability, bifurcation -- 4. Higher-order singularities in R2 -- 5. Bifurcation of vector fields, unfoldings -- 6. Center manifolds -- 7. An approach to physical unfoldings in flow patterns -- 8. References -- II Topology Of Conical Flow Patterns -- 1. Introduction -- 2. Local conical stagnation point solutions in irrotational flow -- 3. Classification of conical stagnation points in conical flows -- 4. Analytical unfoldings in conical flows -- 5. External corner flow; a nonanalytical unfolding of a starlike node -- 6. References -- III Topological Aspects Of Steady Viscous Flows Near Plane Walls -- 1. A way to obtain local solutions of the Navier-Stokes equations -- 2. Steady viscous flow near a plane wall, elementary singular points in the flow patterns -- 3. Higher-order singularities in the flow pattern -- 4. Unfolding of the topological saddle point of the third order -- 5. Unfolding of a topological saddle point of the fifth order -- 6. Unfolding of a saddle point with three hyperbolic sectors in a half plane, ?xx? 0 -- 7. Unfolding of a saddle point with two or four hyperbolic sectors in a half plane, ?xx? 0 -- 8. Viscous flow near a circular cylinder at low Reynolds numbers -- 9. References -- Index of subjects The main idea of the present study is to demonstrate that the qualitative theory of diffe­ rential equations, when applied to problems in fluid-and gasdynamics, will contribute to the understanding of qualitative aspects of fluid flows, in particular those concerned with geometrical properties of flow fields such as shape and stability of its streamline patterns. It is obvious that insight into the qualitative structure of flow fields is of great importance and appears as an ultimate aim of flow research. Qualitative insight fashions our know­ ledge and serves as a good guide for further quantitative investigations. Moreover, quali­ tative information can become very useful, especially when it is applied in close corres­ pondence with numerical methods, in order to interpret and value numerical results. A qualitative analysis may be crucial for the investigation of the flow in the neighbourhood of singularities where a numerical method is not reliable anymore due to discretisation er­ rors being unacceptable. Up till now, familiar research methods -frequently based on rigorous analyses, careful nu­ merical procedures and sophisticated experimental techniques -have increased considera­ bly our qualitative knowledge of flows, albeit that the information is often obtained indirectly by a process of a careful but cumbersome examination of quantitative data. In the past decade, new methods are under development that yield the qualitative infor­ mation more directly. These methods, make use of the knowledge available in the qualitative theory of differen­ tial equations and in the theory of bifurcations HTTP:URL=https://doi.org/10.1007/978-94-011-3512-2

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