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Line 1: {{Short description\|Computational fluid dynamics algorithm}} In [[computational fluid dynamics]] (CFD), the '''SIMPLE algorithm''' is a widely used [[numerical algorithm\|numerical procedure]] to solve the [[Navier–Stokes equation]]s. ''SIMPLE'' is an acronym for Semi-Implicit Method for Pressure Linked Equations. The SIMPLE algorithm was developed by Prof. [[Brian Spalding]] and his student [[Suhas Patankar]] at [[Imperial College London~~\|Imperial College~~]]~~, London~~ in the early 1970s. Since then it has been extensively used by many researchers to solve different kinds of fluid flow and heat transfer problems.<ref>{{cite conference \|last1=Mangani \|first1=L. \|last2=Bianchini \|first2=C. \|conference=[[Proceedings of the OpenFOAM International Conference 2007]] \|year=2007 \|url=https://flore.unifi.it/retrieve/handle/2158/418277/15222/OFIC-07.pdf \|title=Heat transfer applications in turbomachinery \|access-date=2016-03-16}}</ref> Many popular books on computational fluid dynamics discuss the SIMPLE algorithm in detail.<ref>{{cite book \|last=Patankar \|first=S. V. \| author-link = Suhas Patankar \|title=Numerical Heat Transfer and Fluid Flow \|publisher=[[Taylor & Francis]] \|year=1980 \|isbn=978-0-89116-522-4}}</ref><ref>{{cite book \|last=Ferziger \|first=J. H. \| author-link = J. H. Ferziger \|author2=Peric, M. \|title=Computational Methods for Fluid Dynamics\|publisher=[[Springer-Verlag]] \|year=2001 \|isbn= 978-3-540-42074-3}}</ref> A modified variant is the ''SIMPLER'' algorithm (SIMPLE Revised), that was introduced by Patankar in 1979.<ref>{{cite book \|last=Tannehill\|first=J. C.\|author2 = Anderson, D. A. \|author2-link = Dale A. Anderson \|author3=Pletcher, R. H. \|title=Computational Fluid Mechanics and Heat Transfer \|url=https://archive.org/details/computationalflu0000tann\|url-access=registration\|publisher=[[Taylor & Francis]] \|year=1997 \|isbn=9781560320463 }}</ref> == Algorithm == Line 18 ⟶ 19: # Correct the face mass fluxes: <math>\dot m_f^{k + 1} = \dot m_f^{} + \dot m_f^{'} </math> # Correct the cell velocities: <math> \vec v^{k + 1} = \vec v^{} - \frac{{\text{Vol} \ \nabla p^{'} }}{{\vec a_P^v }} </math> ; where <math> {\nabla p^{'} } </math> is the gradient of the pressure corrections, <math> {\vec a_P^v } </math> is the vector of central coefficients for the discretized linear system representing the velocity equation and Vol is the cell volume. # Update density due to pressure changes.f == See also ==