Events | Innovation Space

Overview

Discover the transformative power of simulation engineering in enabling smart manufacturing and operations. Uncover how this innovative approach can revolutionize product and process design, enhancing performance and efficiency.

Engineers across various industries have utilized simulation for decades to understand better their products' intended performance and behavior under transient and steady-state conditions. These digital models, or digital assets, can now be employed in manufacturing as they were in product development. In this discussion, we will explore the life cycle perspective of these digital assets and how manufacturers and operators can leverage them further by creating sophisticated digital twins. This approach has gained momentum through advances in high-performance computing technologies such as GPUs and AI/ML capabilities. These technologies, built on decades of advanced engineering and digital assets, enhance our predictive understanding of products and processes and provide real-time insights that facilitate immediate performance improvements. This assures us that our products and processes are operating at the highest levels of maturity and quality, establishing a solid foundation for the future of smart manufacturing and operations.

What attendees will learn

Value of simulations over the life cycle of a product or process
How the power of simulation is being enhanced in an environment of digital hyper-scalers
Collaboration across the supplier and customer value chains

Who should attend

Engineering Directors, VPs and CTOs of any product company

Speakers

Scott Parent

Overview

Engineering simulation is a critical tool in modern design and analysis, allowing engineers to validate and optimize complex systems before physical testing. This webinar presents an integrated approach to learning simulation techniques through hands-on case studies using Ansys Discovery and Ansys Flagship tools. The session bridges the gap between theoretical coursework and real-world engineering applications, providing attendees with practical insights into Finite Element Analysis (FEA), Computational Fluid Dynamics (CFD), and multiphysics modeling.

With extensive experience teaching undergraduate and graduate engineering students, we'll explore actual case studies used in mechanical design, solid mechanics, and fluid dynamics courses at the University of Waterloo. Topics covered include structural analysis of mechanical components, internal and external flow simulation using Venturi tubes, and nonlinear material behavior analysis. Attendees will learn to set up, analyze, and interpret simulation results effectively, gaining essential skills for industry innovation, research, and advanced engineering design.

Whether you are an undergraduate student looking to enhance your understanding of simulation tools, a graduate researcher applying advanced numerical methods, or an educator interested in integrating Ansys software into your curriculum, this session will provide valuable techniques and strategies to elevate your simulation proficiency. Join us for an interactive learning experience to help you develop confidence in engineering simulation and digital twin applications.

What attendees will learn

Fundamentals of FEA and CFD in Ansys Discovery
How to set up and interpret structural, thermal, and fluid simulations
Best practices for boundary conditions and model validation
Case study analysis of mechanical and multiphysics problems
How to integrate Ansys simulation into coursework and research

Who should attend

Undergraduate and graduate engineering Students: Learn practical skills to improve coursework and research projects using industry-standard simulation tools
Faculty and educators: Gain insights on how to integrate Ansys simulations into engineering curricula, enhancing experiential learning
Industry professionals and researchers: Understand advanced simulation techniques that can improve design validation and product development

Speakers

Andrew Gryguć

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Speakers

Overview

What attendees will learn

Who should attend

Speakers