Water Turbine (Tidal Turbine): ANSYS Fluent Training Package, 5 Advanced CFD Simulations
Original price was: $1,020.00.$299.00Current price is: $299.00. Student Discount
- Master advanced water turbine phenomena including cavitation and acoustics
- Learn complex multiphase simulation techniques for various turbine designs
- Develop expertise in hydro-abrasive erosion analysis
- Understand advanced performance evaluation in challenging conditions
- Apply sophisticated CFD techniques to critical turbine problems
- Perfect your skills in complex flow physics and turbine damage prediction
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Description
Advanced Water Turbine Analysis: Complex Flow Phenomena and Performance
Critical Phenomena in Turbine Operation
This advanced training package delves into sophisticated analysis of critical phenomena affecting water turbine performance and longevity. Using ANSYS Fluent, participants master complex simulation techniques essential for understanding and predicting turbine behavior under challenging conditions.
Advanced Physical Modeling
The course addresses three primary challenges in turbine operation: cavitation, acoustics, and erosion. These phenomena are explored through detailed simulations across different turbine configurations, providing comprehensive understanding of complex flow physics.
Core Analysis Modules
Cavitation Studies
Beginning with Francis turbine cavitation analysis, the course establishes advanced principles of multiphase flow modeling. This foundation extends to Turgo turbine and hydro-kinetic turbine applications, demonstrating cavitation prediction and mitigation strategies across different designs.
Acoustic Analysis
The acoustic analysis module focuses on Francis turbine applications, introducing advanced techniques for predicting and analyzing flow-induced noise. This segment addresses crucial aspects of turbine operation affecting both performance and environmental impact.
Erosion Modeling
The course culminates with sophisticated erosion analysis in Pelton turbines, incorporating advanced particle tracking and surface interaction models. This module demonstrates critical aspects of wear prediction and lifecycle analysis.
Implementation and Analysis
The comprehensive approach ensures mastery of advanced simulation principles while maintaining focus on practical engineering challenges. Each module contributes to a deep understanding of complex turbine phenomena.
Performance Impact Assessment
Understanding the intricate relationships between various physical phenomena and their impact on turbine performance, efficiency, and longevity through sophisticated numerical analysis.
Advanced Flow Physics
Developing expertise in complex multiphase flows, acoustic wave propagation, and particle-fluid interactions within various turbine configurations, enabling accurate prediction of operational challenges.
This advanced course synthesizes complex physical phenomena with practical engineering applications, preparing specialists for sophisticated hydropower simulation challenges. The progression builds comprehensive expertise in predicting and analyzing critical aspects of turbine operation, enabling engineers to address advanced design and operational challenges with confidence.
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