Results 251 to 260 of about 1,835,674 (303)
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Fluid Dynamics, 1982
Turbulent separation flows arise when objects move in the oceans and in the atmosphere, and also when a liquid or gas flows past elements of the Earth's relief, technological and industrial plant, and constructional elements. Therefore, problems of turbulent separation flows cover the entire range of velocities of continuum motions and under such ...
Gogish, L. V., Stepanov, G. Yu.
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Turbulent separation flows arise when objects move in the oceans and in the atmosphere, and also when a liquid or gas flows past elements of the Earth's relief, technological and industrial plant, and constructional elements. Therefore, problems of turbulent separation flows cover the entire range of velocities of continuum motions and under such ...
Gogish, L. V., Stepanov, G. Yu.
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Three-dimensional flow separation
Sadhana, 1993Separation of three-dimensional flow, although much more common than its two-dimensional counterpart, has defied precise description and definition in spite of numerous attempts. Here, we briefly review the grammar that is used to describe various facets of the phenomenon, and use some recent numerical and experimental results to illustrate the ...
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Volume 7: Engineering Education and Professional Development, 2009
In thermal science courses, flow over curved objects, like cylinders or spheres are generally discussed qualitatively, followed by the presentation of numerical or experimental results for the drag coefficient, Nusselt number, and flow separation. Rarely, there is much discussion of how solutions are obtained. In this paper the flow separation is first
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In thermal science courses, flow over curved objects, like cylinders or spheres are generally discussed qualitatively, followed by the presentation of numerical or experimental results for the drag coefficient, Nusselt number, and flow separation. Rarely, there is much discussion of how solutions are obtained. In this paper the flow separation is first
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The separation of Stokes flows
Journal of Fluid Mechanics, 1977A study is made of the extent to which local boundary geometry can influence separation in a two-dimensional or an axisymmetric Stokes flow. It is shown that a Stokes flow can separate from a point on a smooth body at an arbitrary angle, which can be determined only by reference to the global solution for the flow past the body, and the dominant mode ...
Michael, D. H., O'Neill, M. E.
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Separated Flow and Buffeting Control
Flow, Turbulence and Combustion, 2003zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Caruana, D. +3 more
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Flow Through, Immunomagnetic Cell Separation
Biotechnology Progress, 1998A brief, process-oriented overview of immunologically based cell separation technology is presented. In addition, the design and preliminary experimental data of two unique flow-through immunomagnetic cell separation devices are presented. The first design is based on a dipole magnetic field, while the second design is basis on a quadrupole magnetic ...
J J, Chalmers +3 more
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Twelfth IEEE International Workshop on Quality of Service, 2004. IWQOS 2004., 2004
This paper elaborates on a paradigm for quality-of-service (QoS) that is local, i.e., it does not depend on multinode cooperation. In order to maintain short queuing delays, we individuate flows that occupy a large fraction of a buffer and segregate those flows into a separate queue.
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This paper elaborates on a paradigm for quality-of-service (QoS) that is local, i.e., it does not depend on multinode cooperation. In order to maintain short queuing delays, we individuate flows that occupy a large fraction of a buffer and segregate those flows into a separate queue.
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Journal of the Franklin Institute, 1961
Abstract Flow separation is perhaps the most important unsolved phenomenon of fluid mechanics which causes energy loss and deviation of stream lines. A summary of flow separation is presented in order to understand the basic problem, the present state of knowledge and to indicate future development.
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Abstract Flow separation is perhaps the most important unsolved phenomenon of fluid mechanics which causes energy loss and deviation of stream lines. A summary of flow separation is presented in order to understand the basic problem, the present state of knowledge and to indicate future development.
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Flow‐induced particulate separations
AIChE Journal, 2003AbstractSeparating particles from the liquid in which they are suspended is often an important step in processing multiphase materials such as suspensions and emulsions. We describe a new method to separate neutrally buoyant particles from viscous liquids.
Brian W. Roberts, W. L. Olbricht
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1991
There exist two very simple classical models for separated flow behind a bluff body - Helmholtz/Kirchhoff and Prandtl/Batchelor. These both have a pleasant simplicity but agreement with experiment is only qualitative. A simple combination of these two is presented for flow down a step which gives better quantitative results.
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There exist two very simple classical models for separated flow behind a bluff body - Helmholtz/Kirchhoff and Prandtl/Batchelor. These both have a pleasant simplicity but agreement with experiment is only qualitative. A simple combination of these two is presented for flow down a step which gives better quantitative results.
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