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Hybrid Methods in Engineering

年間 4 号発行

ISSN 印刷: 1099-2391

ISSN オンライン: 2641-7359

ON KAPLUN LIMITS AND THE MULTILAYERED ASYMPTOTIC STRUCTURE OF THE TURBULENT BOUNDARY LAYER

巻 1, 発行 3, 1999, 31 pages
DOI: 10.1615/HybMethEng.v1.i3.10
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要約

In the present work, some formal properties of singular perturbation equations are studied through the concept of "equivalent in the limit" of Kaplun, so that a proposition for the principal equations is derived. The proposition shows that if there is a principal equation at a point (η, 1) of the (Ξ × Σ) product space, Ξ space of all positive continuous functions in (0, 1], Σ = (0, 1], then there is also a principal equation at a point (η, ε) of (Ξ × Σ), ε = first critical order. The converse is also true. The proposition is of great implication because it ensures that the asymptotic structure of a singular perturbation problem can be determined by a first-order analysis of the formal domains of validity. The turbulent boundary layer asymptotic structure is then studied by application of Kaplun limits to three test cases: the zero-pressure boundary layer, the separating boundary layer and the shock-wave interacting boundary layer. As it turns out, different asymptotic structures are found, depending on the test cases considered. However, before we consider the real turbulent boundary layer problem, the basics of the theory are illustrated by the study of a model equation that mimics turbulent flow passed over a flat surface. The model equation was chosen for being relatively simple while retaining most of the features of the real problem. This allows one to easily grasp the main concepts and ideas wthout being hampered by unnecessary details. Results show that a two-layered structure is derived, which, however, is different from the classic structure commonly found in the literature, and hence is capable of explaining the flow separation phenomenon. A skin-friction equation resulting from a matching process, and universal laws resulting from local approximated equations are carefully interpreted and evaluated.

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  1. Cho Chong Pyo, Jo Sangpil, Kim Ho Young, Yoon Sam S., Numerical Studies on Combustion Characteristics of Interacting Pulverized Coal Particles at Various Oxygen Concentration, Numerical Heat Transfer, Part A: Applications, 52, 12, 2007. Crossref

  2. Campo Antonio, Numerical study of turbulent flow with heat removal from a flat plate using the finite volume‐based method of lines, International Journal of Numerical Methods for Heat & Fluid Flow, 11, 6, 2001. Crossref

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