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• Two phase flow
  Resolution of these equations requires the knowledge of the instantaneous velocity of the fluid at partic
  13 KB (2,060 words) - 11:38, 6 December 2010
• Wall modeling
  ...ry poor in the Ke model hence the near wall region is approximated by wall equations. This is achieved by having the first cell in the turbulent region by calcu
  198 B (36 words) - 05:41, 2 March 2006
• Near-wall treatment for LES models
  ...be determined from an algebraic law-of-the-wall model or from differential equations solved on a near-wall-layer grid refined in ...d into the main flow,and the following simplified turbulent boundary-layer equations are solved:
  3 KB (497 words) - 12:30, 8 June 2006
• Boussinesq eddy viscosity assumption
  *[[Introduction to turbulence/Reynolds averaged equations#Turbulence closure problem and eddy viscosity|Turbulence closure problem an
  2 KB (292 words) - 09:15, 3 January 2012
• Skin friction coefficient
  ''Add proper reference for equations in [2]''
  4 KB (516 words) - 12:14, 14 January 2016
• Low-Re k-epsilon models
  ==Governing equations==
  6 KB (842 words) - 09:58, 17 December 2008
• Introduction to turbulence/Statistical analysis/Ensemble average
  .... Only ensemble averages will be used in the development of the turbulence equations here unless otherwise stated.
  8 KB (1,391 words) - 12:29, 2 July 2011
• Introduction to turbulence/Reynolds averaged equations
  == Equations governing instantaneous fluid motion == All fluid motions, whether turbulent or not, are governed by the dynamical equations for a fluid. These can be written using Cartesian tensor notation as:
  45 KB (7,578 words) - 08:35, 21 August 2013
• FENSAP-ICE
  ...rom FENSAP, or other CFD codes, and solves fine-grain partial differential equations for droplet velocity and concentration everywhere in the field. While a few ...ule of the FENSAP-ICE system. ICE3D solves fine-grain partial differential equations for thermodynamics and yields the 3-D shape of ice and the water film thick
  2 KB (299 words) - 14:56, 15 December 2006
• Flow around a circular cylinder
  ....A., 1996, Steady-state numerical solution of the Navier-Stokes and energy equations around a horizontal cylinder at moderate Reynolds numbers from 100 to 500,
  6 KB (884 words) - 11:31, 8 April 2017
• Introduction to turbulence/Turbulence kinetic energy
  ... the Navier-Stokes equations as a starting point has left us with far more equations than unknowns. Unfortunately this means that the turbulence ... a simple solution: we simply cannot produce a set of reasonably universal equations. Obviously we are going to have to study the turbulence fluctuations in mor
  47 KB (7,664 words) - 12:47, 13 December 2013
• CFD-FASTRAN
  ...r Stokes equations of flow but the user can solve the reduced Euler set of equations by selecting the inviscid option. For turbulent flows, the software support
  2 KB (337 words) - 09:53, 17 December 2008
• Jeffery-Hamel flow
  The Navier-Stokes equations in cylindrical coordinates then reduce to
  5 KB (777 words) - 21:03, 1 September 2006
• Discontinuous Galerkin
  solve the Euler equations by Cockburn and Shu. The solution of the Navier-Stokes equations with the DG method was first accomplished by Bassi and Rebay in 1997.
  9 KB (1,518 words) - 09:15, 3 January 2012
• K-epsilon models
  ...n models|two equation model]], that means, it includes two extra transport equations to represent the turbulent properties of the flow. This allows a two equati
  3 KB (406 words) - 16:03, 18 June 2011
• K-omega models
  ...n models|two equation model]], that means, it includes two extra transport equations to represent the turbulent properties of the flow. This allows a two equati
  1 KB (148 words) - 12:43, 12 October 2011
• NOGRID
  ...and continuum mechanical problems. FPM is a method for the solution of the equations governing viscous fluid flows, including the effects of heat and mass trans
  3 KB (408 words) - 07:32, 14 June 2018
• Zeta-f model
  ... relaxation model. For the incompressible Newtonian fluid the final set of equations constituting the <math>\zeta-f</math> model is given below.
  3 KB (440 words) - 10:06, 17 December 2008
• J-FLO
  ...quations and whose solution cost is comparable to that of solving the flow equations. Thus, the gradient can be determined with roughly the computational costs ...ude analysis and optimal control capabilities using Euler or Navier-Stokes equations, with automatically generated structured or unstructured body-conforming gr
  2 KB (340 words) - 15:00, 15 December 2006
• 2-D laminar/turbulent driven square cavity flow
  ...ng area" for approbation of [[approximation schemes]] for terms in initial equations as well as of [[computational models]] and methods. A large number of calcu ....{{fact} In the earliest renditions of this problem, the [[Navier–Stokes equations]] were transformed into [[vorticity–stream function]] variables for econo
  5 KB (692 words) - 18:37, 13 August 2007