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- PFV Tconvection matrix 2 TCm=zeros(nfT,nfT); S=zeros(2,nfV); g=zeros(1,nfT); G=zeros(2,nfT); S(:,mv+NDV)= Jtd*ZS4424tc{m,k}*Ti{m}; mv = mv+nV;7 KB (1,061 words) - 16:13, 7 July 2011
- PFV Buoyancy matrix 2 Bm=zeros(nfV,nfT); S=zeros(2,nfV); g=zeros(1,nfT); % Preallocate arrays S(:,mv+NDV)=Jtd*ZS4424b{m,k}*Ti{m}; mv = mv + nV;6 KB (874 words) - 16:20, 7 July 2011
- Code: 3D Lid-driven cavity using pressure-free velocity form ...}=\Pi^S(-\mathbf{v}\cdot\nabla\mathbf{v}+\nu\nabla^2\mathbf{v})+\mathbf{f}^S </math>, ... are solenoidal and irrotational projection operators satisfying <math>\Pi^S+\Pi^I=1</math> and24 KB (3,584 words) - 14:08, 10 August 2011
- PFV 3D diffusion matrix function G=GTL(ni,q,r,s) ...*(1+ni(:,2).*r).*(1+ni(:,3).*s), .125*ni(:,2).*(1+ni(:,1).*q).*(1+ni(:,3).*s), ...5 KB (815 words) - 12:17, 20 July 2011
- PFV 3D convection matrix Cm=zeros(ndfe,ndfe); S=zeros(3,ndfe); % Preallocate arrays S(:,mm3)= JtbD*Z3_V8c{m,k}*Ti{m};5 KB (765 words) - 12:20, 20 July 2011
- PFV V8cW 3D linear FE function S=V8cW(ni,q,r,s) % V = V8cW(ni,q,r,s)2 KB (263 words) - 14:12, 10 August 2011
- PFV V8xyzcW 3D linear FE derivatives function [Vx,Vy,Vz]=V8xyzcW(ni,q,r,s) % [Vx,Vy,Vz]=V8xyzcW(ni,q,r,s)4 KB (820 words) - 12:12, 20 July 2011
- SIMPLEM algorithm - SIMPLE-Modified * {{reference-paper|author=Acharya, S. and Moukalled, F.|year=1989|title=Improvements to Incompressible Flow Calc303 B (38 words) - 21:32, 28 December 2011
- Pointwise Pointwise's mesh generation employs the following algorithms. ** Steger's formulation for hex extrusion3 KB (441 words) - 18:16, 28 August 2018
- What is Open Source? ...elines and information related to an Open Source license. From an engineer's standpoint: "Open-source software ... is computer software that is ... prov ...at this [http://www.linkedin.com/groups/What-are-your-experiences-in-66032.S.258407217?view=&gid=66032&item=ANET%3AS%3A258407217&trk=NUS_RITM-title inte28 KB (4,443 words) - 05:05, 23 December 2017
- Rahman-Siikonen-Agarwal Model \eta = \alpha_2 T_t S, \quad \xi = \alpha_3 T_t W C_\nu = \frac{1}{2(1+T_t S \sqrt{1+\Re^2})}, \quad \zeta = T_t S max(1,\Re)4 KB (637 words) - 19:47, 8 July 2013
- DrivAer Model [4] S. Mack, T. Indinger, N. Adams, S. Blume, P. Unterlechner: The Interior Design of a 40% Scaled DrivAer Body a [5] S. Mack, T. Indinger, N. Adams, P. Unterlechner: The Ground Simulation Upgrad3 KB (425 words) - 09:32, 6 March 2013
- PFV4 mesh regrade % if a<1 then grade towards the edge(s)1,020 B (189 words) - 19:51, 15 March 2013
- PFVT convection matrix ZZ_Sc{m,k}= eu.S(nn(m,:),xa(k),ya(k)); S=zeros(2,nedofs); Sx=zeros(2,nedofs); Sy=zeros(2,nedofs);6 KB (856 words) - 20:59, 15 March 2013
- PFVT Tconvection matrix ZZ_Stc{m,k} =eu.S(nn(m,:),xa(k),ya(k)); TCm=zeros(nfT,nfT); S=zeros(2,nfV); g=zeros(1,nfT); G=zeros(2,nfT);5 KB (830 words) - 21:04, 15 March 2013
- PFVT Buoyancy matrix ZZ_Stb{m,k}= eu.S(nn(m,:),xa(k),ya(k)); Bm=zeros(nfV,nfT); S=zeros(2,nfV); g=zeros(1,nfT); % Allocate arrays5 KB (757 words) - 21:07, 15 March 2013
- PFVT get pressure ZZ_Spcd{m,k} =eu.S(nn(m,:),xa(k),ya(k)); S=zeros(2,nvdf); Sx=zeros(2,nvdf); Sy=zeros(2,nvdf); G=zeros(2,npdf);11 KB (1,613 words) - 21:10, 15 March 2013
- PFVT mesh regrade % if a<1 then grade towards the edge(s)1,020 B (189 words) - 21:12, 15 March 2013
- Palabos * [http://www.palabos.org/documentation/userguide/ Palabos User's Guide]1 KB (163 words) - 15:05, 3 April 2013
- COVISE since 2015 it s OpenSource and free for both academic and commercial users. Source code is416 B (64 words) - 16:01, 8 February 2015