SOME SIMILARITY IN THE BREAKDOWN PROCESS OF THE PRIMARY INSTABILITY BETWEEN 2-D AND 3-D BOUNDARY LAYERS.

Yasuaki Kohama

SOME SIMILARITY IN THE BREAKDOWN PROCESS OF THE PRIMARY INSTABILITY BETWEEN 2-D AND 3-D BOUNDARY LAYERS.

Yasuaki Kohama

研究成果: Conference article › 査読

抄録

Through investigations in 3-D boundary-layers around rotating bodies and curved walls, some similarity in the breakdown process of the primary instability with that of 2-D boundary-layer was observed. The behavior of the shedding eddies (secondary disturbance) which appear at the final stage of the primary instabilities (centrifugal and crossflow vortices, etc. ) are remarkably similar to the breakdown process of the Tollmien-Schlichting wave except that the beginning of so called 'new instability' is not so dramatic as 2-D case which accompanies the 'spikes'.

本文言語	English
ページ（範囲）	209-218
ページ数	10
ジャーナル	PCH. Physicochemical hydrodynamics
巻	9
号	1-2
出版ステータス	Published - 1987 1 1
イベント	Physicochem Hydrodyn, 6th Int Conf, Dedicated to the Memory of Veniamin Levich - Oxford, Engl 継続期間: 1987 4 6 → 1987 4 8

ASJC Scopus subject areas

Engineering(all)

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引用スタイル

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abstract = "Through investigations in 3-D boundary-layers around rotating bodies and curved walls, some similarity in the breakdown process of the primary instability with that of 2-D boundary-layer was observed. The behavior of the shedding eddies (secondary disturbance) which appear at the final stage of the primary instabilities (centrifugal and crossflow vortices, etc. ) are remarkably similar to the breakdown process of the Tollmien-Schlichting wave except that the beginning of so called 'new instability' is not so dramatic as 2-D case which accompanies the 'spikes'.",

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N2 - Through investigations in 3-D boundary-layers around rotating bodies and curved walls, some similarity in the breakdown process of the primary instability with that of 2-D boundary-layer was observed. The behavior of the shedding eddies (secondary disturbance) which appear at the final stage of the primary instabilities (centrifugal and crossflow vortices, etc. ) are remarkably similar to the breakdown process of the Tollmien-Schlichting wave except that the beginning of so called 'new instability' is not so dramatic as 2-D case which accompanies the 'spikes'.

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