Rajesh Bhaskaran’s work seeks to promote the “democratization of simulation” through effective integration of simulation tools into engineering education. He directs the Swanson Lab and has helped introduce industry-standard simulation tools into Cornell courses covering fluid mechanics, heat transfer, solid mechanics, and numerical analysis. Dr. Bhaskaran has led the development of SimCafe.org as an online portal for learning and teaching finite-element and CFD simulations. SimCafe is used worldwide in courses as well as for self-paced learning by students and industry professionals. Dr. Bhaskaran has developed a unified methodology for using simulation in disparate lecture-based and lab courses. This methodology teaches students to approach simulations like an expert rather than just pushing buttons and accepting results at face value. Dr. Bhaskaran’s professional interests include engineering applications of simulation technology, reliable deployment of advanced simulation by generalist engineers, and conceptual change in learners using simulations. He has organized two international workshops on simulation in engineering curricula.
Course Overview
While 2D simulations are a good place to begin, many of the real-world applications of simulation require simulating 3D conditions. In this course, you will work on a 3D turbulent flow problem in Ansys. You will apply the ideas covered in the previous course on 2D laminar flow, now extending to 3D turbulent flow, which is relevant for many industrial applications of simulation.
You are required to have completed the following courses or have equivalent experience before taking this course:
- Foundations of CFD
- 2D Laminar Flows
Key Course Takeaways
- Construct the mathematical model underlying 3D turbulent flow simulations, including governing equations, boundary conditions, physical principles, and assumptions
- Devise a solution strategy to solve the mathematical model and reduce errors introduced by your strategy
- Predict expected results using hand calculations in order to verify simulation results
- Obtain a numerical solution to the mathematical model using Ansys
- Analyze the simulation results and gain physical insights through visualization
- Defend the simulation results by undertaking a “verification and validation” procedure that includes checking consistency with the underlying mathematical model, assessing numerical errors, and comparing with hand calculations
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Course Length
2 weeks
Effort
5-7 hours per week
Format
100% online, instructor-led
Course Author
Rajesh Bhaskaran
Swanson Director of Engineering Simulation
Cornell College of Engineering
Swanson Director of Engineering Simulation, Cornell Engineering
Who Should Enroll
- Engineers who work with computer-aided design (CAD) software
- Engineering analysts
- Simulation engineers
- Mechanical engineers
- Naval engineers
- Aerospace engineers
- Physicists
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