Difference between revisions of "THETA 2016"
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The DLR in house code THETA (Turbulent Heat Release Extension of the TAU Code) was developed to simulate flow and chemical reaction in combustion chambers. The THETA code was created in collaboration with the DLR Institute for Aerodynamics and Flow Technology on the basis of the compressible DLR code ‘TAU’ and is under continuous development in various research projects. It provides a platform for developing and validating new numerical computation methods as well as physico-chemical models for computing combustion chamber flows. | The DLR in house code THETA (Turbulent Heat Release Extension of the TAU Code) was developed to simulate flow and chemical reaction in combustion chambers. The THETA code was created in collaboration with the DLR Institute for Aerodynamics and Flow Technology on the basis of the compressible DLR code ‘TAU’ and is under continuous development in various research projects. It provides a platform for developing and validating new numerical computation methods as well as physico-chemical models for computing combustion chamber flows. | ||
== Example usage == | |||
.. | |||
== Further informations == | == Further informations == | ||
For more informations about THETA, please visit the [http://www.dlr.de/vt/desktopdefault.aspx/tabid-3082/4659_read-15475 official Homepage]. | For more informations about THETA, please visit the [http://www.dlr.de/vt/desktopdefault.aspx/tabid-3082/4659_read-15475 official Homepage]. |
Revision as of 08:58, 7 June 2017
Introduction
The DLR in house code THETA (Turbulent Heat Release Extension of the TAU Code) was developed to simulate flow and chemical reaction in combustion chambers. The THETA code was created in collaboration with the DLR Institute for Aerodynamics and Flow Technology on the basis of the compressible DLR code ‘TAU’ and is under continuous development in various research projects. It provides a platform for developing and validating new numerical computation methods as well as physico-chemical models for computing combustion chamber flows.
Example usage
..
Further informations
For more informations about THETA, please visit the official Homepage.