Vincent, Peter E
2018-06-25 14:35:32 UTC
Hi Vishal,
Thanks for your interest in PyFR.
Neither are implemented yet, but we are working on it, and hope to have the technology in a release soon.
Thanks
Peter
Dr Peter Vincent MSci ARCS DIC PhD FRAeS
Reader in Aeronautics and EPSRC Fellow
Department of Aeronautics
Imperial College London
South Kensington
London
SW7 2AZ
UK
web: www.imperial.ac.uk/aeronautics/research/vincentlab<http://www.imperial.ac.uk/aeronautics/research/vincentlab>
twitter: @Vincent_Lab
On 11 May 2018, at 11:43, Vishal Saini <***@gmail.com<mailto:***@gmail.com>> wrote:
hi all,
I'm interested in running turbulent pipe like simulations for which I need to provide turbulent inlet boundary conditions.
Assume that I can not use periodic boundary condition for inlet from the outlet.
There are two usual ways:
1. use input files for each time step from another simulation that provides developed turbulent flow.
2. provide defined fluctuations over a mean profile of the variables.
Are these options implemented in PyFR compressible or incompressible solver?
Cheers,
Vishal
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Thanks for your interest in PyFR.
Neither are implemented yet, but we are working on it, and hope to have the technology in a release soon.
Thanks
Peter
Dr Peter Vincent MSci ARCS DIC PhD FRAeS
Reader in Aeronautics and EPSRC Fellow
Department of Aeronautics
Imperial College London
South Kensington
London
SW7 2AZ
UK
web: www.imperial.ac.uk/aeronautics/research/vincentlab<http://www.imperial.ac.uk/aeronautics/research/vincentlab>
twitter: @Vincent_Lab
On 11 May 2018, at 11:43, Vishal Saini <***@gmail.com<mailto:***@gmail.com>> wrote:
hi all,
I'm interested in running turbulent pipe like simulations for which I need to provide turbulent inlet boundary conditions.
Assume that I can not use periodic boundary condition for inlet from the outlet.
There are two usual ways:
1. use input files for each time step from another simulation that provides developed turbulent flow.
2. provide defined fluctuations over a mean profile of the variables.
Are these options implemented in PyFR compressible or incompressible solver?
Cheers,
Vishal
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