Laminar boundary layer on cylindrical bodies started from certain preceding non-steady motions.
R. Askovic (1967)
Publications de l'Institut Mathématique [Elektronische Ressource]
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Displaying similar documents to “On the solution of unsteady laminar boundary layers past bodies of revolution spinning about its axis.”
Laminar boundary layer on cylindrical bodies started from certain preceding non-steady motions.
On unsteady compressible laminar boundary layers past bodies of revolution spinning about its axis.
I. Pop (1970)
Publications de l'Institut Mathématique [Elektronische Ressource]
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An approximate solution of the boundary layer on a body started from certain preceding non-steady motions.
Radomir Askovic (1968)
Publications de l'Institut Mathématique [Elektronische Ressource]
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A contribution to similar solutions in the case of unsteady boundary layers
M. Đurić (1965)
Matematički Vesnik
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One-parameter solution of thermal boundary layers
M. Đ. Đurić (1967)
Publications de l'Institut Mathématique
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On The Transformation Of Thermal Boundary-Layer Equations
Milan Đ. Đurić (1969)
Publications de l'Institut Mathématique
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Non-linear flow-induced vibrations in deformable curved bodies: A lattice Boltzmann-immersed boundary-finite element study
Alessandro De Rosis (2015)
Curved and Layered Structures
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The dynamic response of a deformable curved solid body is investigated as it interacts with a flow field. The fluid is assumed to be viscous and the flow is nearly incompressible. Fluid dynamics is predicted through a lattice Boltzmann solver. Corotational beam finite elements undergoing large displacements are adopted to idealize the submerged body, whose presence in the lattice fluid background is handled by the immersed boundary method. The attention focuses on the solid’s deformation...
Unsteady Laminar Boundary Layer On A Rotational Body Which Is Put To Spiral Motion
Milan Đurić (1965)
Publications de l'Institut Mathématique
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On the motion of rigid bodies in a compressible viscous fluid under the action of gravitational forces
Ducomet, Bernard, Nečasová, Šárka
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The global existence of weak solution is proved for the problem of the motion of several rigid bodies in a barotropic compressible fluid, under the influence of gravitational forces.