- ADT to Sponsor 25th IAHR Symposium - Sept. 20-24 Timisoara
- ADT to Present TURBOdesign Suite 5.0 at ASME 2010 Turbo Expo
- ADT to Exhibit at the Turbocharging Conference,May, London
- ADT - Impact-Tek Streamline Turbomachinery Structural Design
- Ebm-papst couples TURBOdesign-1 with Automatic Optimization
- ADT announces VINAS as distributor for Japan
- TURBOdesign Suite Pumps & Hydraulic Turbines Workshop
- ADT to exhibit at the Ansys EASC in Munich, July 09
- ADT to exhibit at the ASME Turbo Expo 2009 in Orlando
- JAXA achieves superior design of Rocket Pumps with TD-1
- ADT to exhibit at RINA Waterjet Propulsion 5
- ADT to exhibit at the IMechE International Fan Symposium
- Release of TURBOdesignSuite V3
- TURBOdesign Suite V3.0 showcased at Engineous Symposium
- TURBOdesign Suite to be showcased at FanNoise 2007
- TURBOdesign-1 v 3.0 Featured in World Pumps June Issue
- ADT Pump & Fan Workshop in conjunction with TURBOlab
- Ebm-papst utilizes TURBOdesign-1 in Optimal Fan Design
- ADT and Engineous Japan Inc Plan a Joint Consortium
- IMechE 8th International Conference on Turbocharging.
- 51st ASME TURBO EXPO.
- Pump and Fan Design Workshop, London, 3-4 April 2006.
- Commercial Release of TURBOcfd Announced
- Application of TURBOdesign-1 in Ebara Corporation
- Commercial Release Of TURBOdesign-2 Announced
- Avio utilizes TURBOdesign-1 for Aeroengine LP Turbines
- Kubota uses TURBOdesign-1 in design of Hydraulic Turbines
- 50th ASME TURBO EXPO.
- The 6th European Turbomachinery Conference
- Development News on TURBOdesign-2
- Issue of Version 2.2 of TURBOdesign-1
- 2003 World Pump Article
Commercial Release of TURBOcfd Announced
Introduction to TURBOcfd
The application of CFD codes in the turbomachinery blade design process, even if inverse design methods such as TURBOdesign-1 are employed, play an important role in highlighting loss mechanisms in presence of viscous effects. In addition they can be used to provide estimates of the overall design characteristic including efficiency and head variation with flow rates. Increasingly CFD codes are relied for qualitative assessment of noise in fans and cavitation in pumps.
Many Turbomachinery companies employ general purpose CFD codes as part of the design process for this purpose. However, in many general purpose CFD codes the mesh generation and problem set up can be quite time consuming which can affect the productivity of designers and increase the design and development time. In order to overcome some of the problems involved in employing general purpose codes in the blade design process, ADT has developed a new product called TURBOcfd, which is specifically designed in order to streamline the application of CFD in the turbomachinery blade design process.
Unique Features
The code, which will be made available as a package together with TURBOdesign-1 inverse design method, has a number of important unique features such as easy import of geometry from TURBOdesign-1, automatic mesh generation and a turbomachinery specific post processor.
The pre-processor has been designed in such a way as to ensure that within a matter of 5 minutes the mesh is generated and all boundary conditions are specified and the CFD computation is ready to run.
The post-processor output includes information on NPSH for pump applications and broadband noise for fan applications (to be made available from April 2006). Experimental validation of these models has shown that they provide a good qualitative measure of these quantities. Furthermore, the code allows for automatic characteristics computations (i.e. multi-point analysis) based on a user defined set of exit static pressures.
Another important feature of TURBOcfd is the solver, which is robust, accurate and computationally efficient. The solver has been developed at the University of Florence and the code has been extensively validated both at the university and in industry over a 15 year period. The computational efficiency of the code enables typical computations with fine meshes of the order of 350,000 nodes to be completed on a P4 3.0 GHz PC in a matter of 30 minutes.
The combination of fast problem definition in the pre-processor, fast and accurate CFD solver and turbomachinery specific postprocessor makes TURBOcfd a unique code for improving the productivity of designers involved in the design of pump and fan applications.
Benefits and Advantages of TURBOcfd?
ï A CFD code specifically developed for turbomachinery applications and well integrated with the TURBOdesign-1 design environment.
ï Pre-Processor allows for very rapid mesh generation and boundary condition definition. Problem can be set up and ready to run within 5 minutes.
ï Specific turbomachinery post processor allows for rapid visualisation as well as summary information on efficiency, head, flow rate and cavitation performance in pumps and broadband noise in Fans (available in April 2006).
ï Fast and accurate solver allowing accurate solutions to be obtained in about 30 min on P4 PC for 350,000 nodes mesh.
ï Well validated CFD solver originally developed at Florence University with more than 70 peer-reviewed papers.
Online Presentations
Benefit from ADT's web meetings, we can offer full presentations and live demos via the internet on TURBOdesign-1, TURBOdesign-2 and TURBOcfd with no significant up-front costs, no software to install and with no obligation.
For arranging demonstrations of these unique turbomachinery design and analysis tools or for information on a trial license for evaluation please contact us.
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