S. Pylypenko scite author profile

S. Pylypenko

4Publications

28Citation Statements Received

0Citation Statements Given

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Affiliations

Taras Shevchenko National University of Kyiv, Otto-von-Guericke University Magdeburg, Martin Luther University Halle-Wittenberg

Publications

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Influence of rotary inertia on the fiber dynamics in homogeneous creeping flows

Altenbach¹,

Naumenko

Pylypenko

et al. 2007

Z Angew Math Mech

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The rotation of an inertialess ellipsoidal particle in a Newtonian fluid has been firstly analyzed by Jeffery [1]. He found that in the shear flow the particle rotates such that the end of its axis of symmetry describes a closed periodic orbit. The aim of this paper is to discuss the effects of particle inertia on the rotary motion of a fiber in uniform flow fields. We recall the equations of motion and the constitutive equation for the hydrodynamic moment in the case of a slender fiber. These equations are solved numerically for several flow fields. We demonstrate that for the plane flow fields with dominant vorticity (elliptic and rotational flows) the effect of inertia is the slow particle drift toward the flow plane.

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Fibre Rotation Motion in Homogeneous Flows

Altenbach

Naumenko

Pylypenko

et al.

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Temperature changes of the Earth upper atmosphere over storms from satellite measurements

Kozak

Pylypenko

2011

AstSR

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Киевский национальный университет имени Тараса Шевченко В работе проанализировано изменение температуры верхней атмосферы Земли над 6 ураганами, которые имели место в 1993-1994 гг. Для анализа были использованы измерения спутника UARS в диапазоне высот от 80 до 300 км. Полученное увеличение температуры на высотах мезопаузы можно объяснить распространением и затуханием атмосферных гравитационных волн в неизотермической атмосфере с учетом вязкости и теплопроводности. При численном моделировании оказалось, что градиент температуры с высотой-определяющий фактор затухания и распространения волн. От коэффициентов вязкости и теплопроводности амплитуда волн зависит слабо.

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Ausrichtung von Partikeln in stationären Strömungsfeldern

Altenbach

Naumenko

Pylypenko

et al. 2006

Proc Appl Math and Mech

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S. Pylypenko

Influence of rotary inertia on the fiber dynamics in homogeneous creeping flows

Fibre Rotation Motion in Homogeneous Flows

Temperature changes of the Earth upper atmosphere over storms from satellite measurements

Ausrichtung von Partikeln in stationären Strömungsfeldern

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