Finite Element Analysis in Fluid Dynamics
T. J. Chung,D. M. Kuzo +1 more
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This article is published in Journal of Dynamic Systems Measurement and Control-transactions of The Asme.The article was published on 1978-12-01 and is currently open access. It has received 56 citations till now. The article focuses on the topics: Mixed finite element method & Extended finite element method.read more
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A control volume finite-element method for two-dimensional fluid flow and heat transfer
B. R. Baliga,Suhas V. Patankar +1 more
TL;DR: In this paper, a general numerical method for two-dimensional incompressible flow and heat transfer in irregular-shaped domains is presented, where the calculation domain is first divided into six-node macroelements, and each macroelement is divided into four three-node triangular subelements.
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Control Volume Finite-Element Method for Heat Transfer and Fluid Flow Using Colocated Variables— 1. Computational Procedure
Gerry E. Schneider,M. J. Raw +1 more
TL;DR: A novel computational procedure for the prediction of incompressible fluid flow using primitive variables permits resolution of two longstanding problems in computational fluid dynamics, namely accurate convection modeling and preclusion of pressure field decoupling.
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A control volume-based finite-element method for solving the navier-stokes equations using equal-order velocity-pressure interpolation
C. Prakash,Suhas V. Patankar +1 more
TL;DR: In this paper, a control volume-based finite element method for solving the Navier-Stokes equations using equal-order velocity-pressure interpolation is presented, which calculates velocity and pressure at all the grid points in the domain.
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The numerical simulation of the steady movement of a fluid meniscus in a capillary tube
TL;DR: In this paper, the steady movement of a fluid meniscus in a circular capillary tube is analyzed by means of finite-element numerical simulation for a range of values of contact angles and contact-line velocities with minute slippage of the fluid on the tube wall, thus relaxing the conventional no-slip boundary condition.
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Polymerization-Induced Phase Separation. 2. Morphological Analysis
Philip K. Chan,Alejandro D. Rey +1 more
TL;DR: In this article, a model composed of the nonlinear Cahn−Hilliard and Flory−Huggins theories for spinodal decomposition and a second-order rate equation for polymerization for the self-condensation of a trifunctional monomer is used to study the polymerization-induced phase separation (PIPS) phenomena.