Jump to navigation Jump to search
No edit summary
No edit summary
 
(9 intermediate revisions by 3 users not shown)
Line 1: Line 1:
<seo title="Home" metakeywords="kbwiki, ercoftac" metadescription="Welcome to the world's foremost repository of structured knowledge and advice designed to underpin quality and trust in the industrial application of CFD"/>
== The <span class="plainlinks">[http://www.ercoftac.org/ ERCOFTAC]</span> <!--QNET-CFD--> Knowledge Base Wiki Home Page ==
== The <span class="plainlinks">[http://www.ercoftac.org/ ERCOFTAC]</span> <!--QNET-CFD--> Knowledge Base Wiki Home Page ==


Line 19: Line 21:
* '''[[Application Areas]]'''  
* '''[[Application Areas]]'''  


These are sector disciplines such as Built Environment, Chemical and Process Engineering, External Aerodynamics, Turbomachinery, Combustion and Heat Transfer etc.  
These are sector disciplines such as Built Environment, Chemical and Process Engineering, External Aerodynamics, Turbomachinery, Combustion and Heat Transfer, Environmenta Flows, Biomedical Flows etc.  
 
 
* '''[[Underlying Flow Regimes|Underlying Flow Regimes (UFR)]]'''
 
These are generic, well-studied test cases capturing important elements of the key flow physics encountered across the Application Areas.
 
 
* '''[[DNS_Index|Direct Numerical Simulations (DNS)]]'''
   
   
Each Application Area is comprised of Application Challenges (AC). These are realistic industrial test cases which can be used to judge the competency and limitations of CFD for a given Application Area.  
These are test cases providing statistical data from high-fidelity calculations, primarily Direct Numerical Simulations but also near-DNS Large Eddy simulations, aimed for testing and improving models for the turbulent motion and for gaining insight into this.




* '''[[Underlying Flow Regimes (UFR)|Underlying Flow Regimes]]'''  
* '''[[EXP_Index|Experimental Studies (EXP)]]'''  


These are generic, well-studied test cases capturing important elements of the key flow physics encountered across the Application Areas.
These are test cases providing experimental data for gaining insight into the flow physics and supplying target values for testing and validating CFD methods




Line 36: Line 46:
</table>
</table>


== Further Info on QNET-CFD Wiki ==
== Further Info on Knowledge Base Wiki ==
 
Details on the structure, operation and management of the QNET-CFD Knowledge Base can be found '''[[About-url#|here]]'''.
 
Discussion about this wiki can be found in the <span class="plainlinks">'''[http://qnet-ercoftac.cfms.org.uk/31frm46 forums]'''</span>.


All the latest developments in the QNET-CFD Knowledge Base can be found in '''[[News]]'''
Details on the structure, operation and management of the Knowledge Base wiki can be found '''[[About-url#|here]]'''.


Privileged users can see [[Dev:New_features|new features]] as they are worked on.
All the latest developments in the Knowledge Base can be found in '''[[News]]'''


== Further Info on MediaWiki ==
== Further Info on MediaWiki ==

Latest revision as of 12:59, 13 March 2023

The ERCOFTAC Knowledge Base Wiki Home Page

Welcome to the world's foremost repository of structured knowledge and advice designed to underpin quality and trust in the industrial application of CFD.

The Knowledge Base was originally developed by the EU Network on Quality and Trust in the Industrial Application of Computational Fluid Dynamics (QNET-CFD). After the end of this EU network, the Knowledge Base was passed on to ERCOFTAC with the remit of making it public and to expand it continuously (see News link below).

The Knowledge Base consists of individual test cases which are application centred, facilitating the identification of appropriate knowledge and advice for specific industrial purposes. They are organised around:


These are sector disciplines such as Built Environment, Chemical and Process Engineering, External Aerodynamics, Turbomachinery, Combustion and Heat Transfer, Environmenta Flows, Biomedical Flows etc.


These are generic, well-studied test cases capturing important elements of the key flow physics encountered across the Application Areas.


These are test cases providing statistical data from high-fidelity calculations, primarily Direct Numerical Simulations but also near-DNS Large Eddy simulations, aimed for testing and improving models for the turbulent motion and for gaining insight into this.


These are test cases providing experimental data for gaining insight into the flow physics and supplying target values for testing and validating CFD methods


Splash.gif

Further Info on Knowledge Base Wiki

Details on the structure, operation and management of the Knowledge Base wiki can be found here.

All the latest developments in the Knowledge Base can be found in News

Further Info on MediaWiki

This wiki uses MediaWiki. You can find more information by following these links: