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SOLverATD - An efficient solver for Aerothermodynamics

Obiettivo

Two major objectives have been identified in the framework of the SOLverATD project. 

The first one is the development of the existing CIRA solver NExT, in order to increase the simulation capabilities and reduce the computational costs. 

The second one is to define a detailed activity plan for a further development phase, when advanced physical-numerical models will be implemented also in collaboration with national and international research institutions, to maintain the software at the state of the art of the numerical simulation of reacting flows.

Attività nel progetto CIRA

The SOLverATD project activity is being performed by CIRA. Four main work packages have been identified: Numerical costs reduction by new time integration strategies Improvement of the simulation capabilities of turbulent flows Implementation of physical-chemical models for the simulation of Planetary entry in non-Earth atmosphere Assessment of the radiation modelling Moreover, a detailed activity plan for a further development phase will be defined, with the aim to maintain the software at the state of the art of the numerical simulation of reacting flows.

Programma

  • data inizio: Tuesday, September 1, 2015
  • durata: 28.00
Wednesday, September 14, 2016
63
Wednesday, February 8, 2017
SOLverATD
Aerothermodynamics
The main goal of the project is the development of a numerical solver for aerothermodynamic applications with the aim to consolidate the key role of CIRA in the field of numerical simulation of reacting flows in the European scenario.
Aerothermodynamics for spatial applications, Computational Fluid Dynamics
Scientific computing systems

 

 

SOLverATD - An efficient solver for Aerothermodynamics<img alt="" src="http://webtest.cira.it/PublishingImages/IXV.jpg" style="BORDER:0px solid;" />https://www.cira.it/en/space/accesso-allo-spazio-satelliti-ed-esplorazione/solveratd/SOLverATD - An efficient solver for AerothermodynamicsSOLverATD - An efficient solver for Aerothermodynamics<p>Two major objectives have been identified in the framework of the SOLverATD project. </p><p>The first one is the development of the existing CIRA solver NExT, in order to increase the simulation capabilities and reduce the computational costs. </p><p>The second one is to define a detailed activity plan for a further development phase, when advanced physical-numerical models will be implemented also in collaboration with national and international research institutions, to maintain the software at the state of the art of the numerical simulation of reacting flows.</p><p>The SOLverATD project activity is being performed by CIRA. Four main work packages have been identified: Numerical costs reduction by new time integration strategies Improvement of the simulation capabilities of turbulent flows Implementation of physical-chemical models for the simulation of Planetary entry in non-Earth atmosphere Assessment of the radiation modelling Moreover, a detailed activity plan for a further development phase will be defined, with the aim to maintain the software at the state of the art of the numerical simulation of reacting flows.</p>2015-08-31T22:00:00Z28.0000000000000

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