Results 311 to 320 of about 469,323 (348)

Computational fluid dynamics

1998
Publisher Summary This chapter focuses on computational fluid dynamics. For the flow of an incompressible fluid, if the Navier–Stokes equations of motion and the continuity equation are solved simultaneously under given boundary conditions, an exact solution should be obtained.
Y. Nakayama, R.F. Boucher
openaire   +2 more sources

Computational fluid dynamics modelling of fire

International Journal of Computational Fluid Dynamics, 2012
An overview of a methodology for simulating fires and other thermally-driven, low-speed flows is presented. The model employs a number of simplifications of the governing equations that allow for relatively fast simulations of practical fire scenarios.
McGrattan, Kevin, McDermott, Randall, Floyd, Jason, Hostikka, Simo, Forney, Glenn, Baum, Howard   +6 more
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Computational Fluid Dynamics of Cerebrospinal Fluid

Cerebrospinal fluid (CSF) plays a critical role in the healthy function of the brain, yet the mechanics of CSF flow remain poorly understood. Computational fluid dynamics is a powerful tool capable of resolving the spatiotemporal evolution of CSF pressures and velocities, but technical and methodological limitations have limited the clinical use of CFD
Patrick, Fillingham, Mehmet, Kurt, Swati Rane, Levendovszky, Michael R, Levitt   +3 more
openaire   +2 more sources

Computational Fluid Dynamics

2011
Over recent years computational fluid dynamics (CFD) has emerged as an important approach in chemical and biochemical engineering. It provides useful information on the underlying transport phenomena in chemical and biochemical processes such as heat, momentum, or mass transfer.
M. Eslahpazir, Christoph Wittmann, R. Krull   +2 more
openaire   +2 more sources

Computational Fluid Dynamics: Computer Simulation

2011
The Physical aspects of any fluid flow are governed by three fundamental principles: Mass is conserved; Newton's second law and Energy is conserved. These fundamental principles can be expressed in terms of mathematical equations, which in their most general form are usually partial differential equations.
M. Y. Khire, S. G. Kotakar, R. R. Navthar   +2 more
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Computational Fluid Dynamics: An Introduction

1988
This chapter provides an overview of computational fluid dynamics (CFD) with emphasis on its cost-effectiveness in design. Some representative applications are described to indicate what CFD is capable of. The typical structure of the equations governing fluid dynamics is highlighted and the way in which these equations are converted into computer ...
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COMPUTATIONAL FLUID DYNAMICS

1994
Publisher Summary The fundamental equations for incompressible flows of Newtonian fluids are the momentum and the continuity equations. These equations are written in the primitive variables of velocity components and pressure, with reference to an Eulerian frame, that is, a space-fixed system of coordinates through which the fluid flows. In primitive
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Blueprint for cancer research: Critical gaps and opportunities

Ca-A Cancer Journal for Clinicians, 2021
J Bonilla, C D Booth, D Boscherini
exaly  

Advances and Open Problems in Federated Learning

Foundations and Trends in Machine Learning, 2021
Han Yu, Ana Cecilia Boetto
exaly  

Computational Fluid Dynamics (CFD)

2000
Many products in industry, e.g. space vehicles, airplanes, helicopters, trains, cars, engines, single crystals, machines in process engineering and nuclear engineering, are extremely complex systems that combine and integrate various highly advanced technologies. Their definitions and developments are carried out in complex and time consuming processes
openaire   +2 more sources