Getting Started with Ansys Discovery

Ansys Discovery enables engineers to accelerate product development and increase innovation through upfront simulation. Discovery achieves this by combining several technologies in an easy-to-use, modern interface. This enables rapid geometry preparation for the analysis that leverages direct modeling and history tracking. It also provides real-time simulation using a GPU-powered live physics solver. The user can have high-fidelity simulation leveraging the Ansys Mechanical and Ansys Fluent solvers. Whether you are new to simulation or an expert analyst, the content in this Learning Track is designed to bring you quickly up to speed with using Discovery for simulation and geometry preparation

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1
Innovation Course

Structural Simulation Using Ansys Discovery

This course will give you an understanding of the complete end-to-end procedure for conducting structural analysis in Ansys Discovery. After completing this course, you will be able to apply the lessons learned to the solution of your own analysis problems. ...Read more

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Innovation Course

Topology Optimization Using Ansys Discovery

With a topology optimization analysis, you can compute an optimal structural design for a selected region of your model with specific design goals and constraints. Topology optimization is a physics-driven optimization that is based on a set of loads and boundary conditions.  In this course, you will learn how to use Ansys Discovery to perform topology optimization.  

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Innovation Course

Fluid Flow Simulation Using Ansys Discovery

Whether it’s the plumbing in our homes or fluid flow through exhaust manifold of a vehicle, we encounter internal flows in various aspects of our lives. Hence, having the knowledge of simulating internal flows becomes very significant. In this course, you will learn how to use Ansys Discovery to perform internal fluid flow simulations within different stages of Discovery.

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Innovation Course

Porous Flow Simulation

Many industrial applications involve flow through a porous medium, such as packed bed, filter paper, perforated plate, tube bank, and so on. Generally, a porous medium geometry is inherently complicated. Using the porous media model to create a representative porous zone in the c...Read more

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Innovation Course

Conjugate Heat Transfer

Fluid-solid heat transfer simulations model heat transfer within and between fluids and solids to allow analysis of temperature distribution in both regions.   In this course, you will learn how to use Ansys Discovery to perform a conjugate heat transfer (CHT) simulation to predict temperature and flow distribution. 

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Getting Started with Ansys Discovery — Learning Track Completion Badge

This badge is available upon successful completion of the "Getting Started with Ansys Discovery" Learning Track.