Due to popular demand, this week our ANSYS webinar schedule includes some added sessions on three Ask the Expert topics: advanced post-processing in ANSYS Mechanical 14.5, best practices for FSI and system coupling simulations, and the ANSYS electric machines design toolkit.
Also, there’s a new addition to our Webinar Series: Recent Advances in Automotive Simulation you won’t want to miss. Keep reading for full descriptions and links to register for these webinars!
ANSYS Webinars Complete Descriptions
Ask the Expert: ANSYS Electric Machines Design Toolkit
Wednesday, May 22, 2013
4:00 P.M. EDT, 8:00 P.M. GMT (REGISTER)
The computation of efficiency maps is critical but can be laborious for the design of a PM motor. ANSYS has introduced a user-friendly electric machines design toolkit that is completely integrated into ANSYS Maxwell. The toolkit allows for the computation and display of torque speed curves and efficiency maps for PM machines. It integrates various effects such as skewing, DC/AC winding resistance, end-turn winding inductance, frequency-dependent core loss coefficients, and mechanical loss. Furthermore, an efficiency map computation is compared with measurements for a permanent magnet synchronous machine that includes the complete torque-speed operating region. The validated simulation model allows an investigation into reducing the permanent magnet size for which the impact on the efficiency map and machine performance is further quantified, and design changes are simulated to maintain the desired efficiency over the operating range.
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Ask the Expert: Advanced Post-Processing Features in ANSYS Mechanical ANSYS 14.5
Wednesday, May 22, 2013
9:00 A.M. EDT, 1:00 P.M. GMT (REGISTER)
Across many industries, significant effort is expended to create detailed virtual models to ensure accurate structural simulations. However, high-fidelity simulations are of little value if you are not able to efficiently extract the results in a usable format. ANSYS Mechanical 14.5 contains many advanced features, such as user-defined results, path operations, and probes that provide the user with a robust post-processing toolset. To efficiently utilize Mechanical 14.5, you must understand these tools.
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PCA Engineers Limited Accelerates the Evolution of Turbochargers via Numerical Optimization and Advanced Simulation Techniques
Speakers
Chris Robinson, Ph.D., Managing Director, PCA Engineers Ltd.
Brad Hutchinson, Ph.D., Vice President, Industry Marketing, ANSYS, Inc.
Thursday, May 23, 2013
Noon EDT, 4:00 P.M. GMT (REGISTER)
Turbocharging the automotive internal-combustion engine has become highly topical, with the trend to downsize engine capacity toward lower emissions without compromising the driver’s perception of performance and transient response. This webcast illustrates the implementation of a design-by-analysis approach in a modern, fully integrated design environment, illustrated by examples of compressor and turbine designs for small gasoline engines. Automated, numerical optimization is an emerging technology that can be deployed within such a system on several levels to eliminate much of the manual iteration, and its usefulness and implementation are described. Also, illustrations of higher-fidelity simulation are included along with their roles in the design process. In addition, future prospects are discussed. To what extent can an empirical background in turbomachinery design become redundant in the designs of new machines? What are the major technical challenges for developers of advanced design and analysis techniques? Webcast attendees are invited to interact with the speakers during the program’s live Q&A segment.
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Ask the Expert: Best Practice for Fluid-Structure Interaction (FSI) and System Coupling Simulations
Thursday, May 23, 2013
1:30 A.M. EDT, 5:30 A.M. GMT (REGISTER)
As engineers increasingly rely on simulation during the product design cycle, the need to simulate designs using multiple physics is growing rapidly so that real world behavior can be simulated. System coupling in ANSYS Workbench provides tight integration of ANSYS Fluent and ANSYS Mechanical to allow the most complex fluid-structure interaction phenomena to be simulated in a single environment.
