Siemens - Applied Computational Fluid Dynamics
- Offered byCoursera
Applied Computational Fluid Dynamics at Coursera Overview
Duration | 31 hours |
Start from | Start Now |
Total fee | Free |
Mode of learning | Online |
Difficulty level | Intermediate |
Official Website | Explore Free Course  |
Credential | Certificate |
Applied Computational Fluid Dynamics at Coursera Highlights
- Flexible deadlines Reset deadlines in accordance to your schedule.
- Shareable Certificate Earn a Certificate upon completion
- 100% online Start instantly and learn at your own schedule.
- Coursera Labs Includes hands on learning projects. Learn more about Coursera Labs External Link
- Intermediate Level Learners attending the course are expected to possess basic knowledge of fluid mechanics and computational fluid dynamics.
- Approx. 31 hours to complete
- English Subtitles: English
Applied Computational Fluid Dynamics at Coursera Course details
- If you're reading this, you're likely interested in exploring applied computational fluid dynamics (CFD) using the Simcenter STAR-CCM+ software or another CFD tool. This course can be a first step in improving your job performance and furthering your career or educational trajectory.
- We’ve created this course to help you use the knowledge of flow physics and computational fluid dynamics to obtain quality solutions of flow and heat transfer problems most efficiently. This course is not about instructions on how to use a particular software. Simcenter STAR-CCM+ was used exclusively for all simulations presented in this course. Still, the learning outcomes would be the same if another public or commercial software were used, as long as it has the same capabilities.
Applied Computational Fluid Dynamics at Coursera Curriculum
Introduction to Applied Computational Fluid Dynamics
Course Introduction
Instructor Introduction
Introduction to Flow Models
The Test Case and Computational Grids
Simulation of Inviscid Flow
Simulation of Laminar Flow
Simulation of Turbulent Flow
Computational Efficiency: Laminar Flow
Computational Efficiency: Turbulent Flow
Comparison of Different Flow Regimes
Welcome/Syllabus reading
Practice Quiz
Practice Quiz
Practice Quiz
Practice Quiz
Practice Quiz
Practice Quiz
Practice Quiz
Practice Quiz
Flow around a Semi-Circular Obstacle in a Plane Channel
Flows in Diffusors and Nozzles
Introduction to Diffusors and Nozzles
Grid-Dependence Studies in a Diffusor
Grid-Dependence Studies in a Nozzle
Laminar Flow in Diffusors
Turbulent Flow in Diffusors
Laminar Flow in Nozzles
Turbulent Flow in Nozzles
Effects of Geometry Modification
Practice Quiz
Practice Quiz
Practice Quiz
Practice Quiz
Practice Quiz
Practice Quiz
Practice Quiz
Practice Quiz
Flows in Diffusors and Nozzles
Secondary and Vortex Flows
Laminar Pressure-Driven Secondary Flows in Ducts
Laminar Pressure-Driven Secondary Flows in Pipes
Turbulent Pressure-Driven Secondary Flows in Pipes
Turbulence Model Effects on Predicted Pressure-Driven Secondary Flows
Turbulence-Driven Secondary Flows in Ducts
Horseshoe Vortex Flows
Tip Vortex Flows
Prediction of Propeller Tip Vortex Flows
Practice Quiz
Practice Quiz
Practice Quiz
Practice Quiz
Practice Quiz
Practice Quiz
Practice Quiz
Practice Quiz
Secondary, Horseshoe Vortex and Tip Vortex Flows
Flows Around a Circular Cylinder
Introduction to Flows around a Circular Cylinder
Flow around a Circular Cylinder at Re = 5
Flow around a Circular Cylinder at Re = 50
Flow around a Circular Cylinder at Re = 500
Flow around a Circular Cylinder at Re = 5,000
Flow around a Circular Cylinder at Re = 50,000
Flow around a Circular Cylinder at High Reynolds Numbers
Flow around a Rotating Circular Cylinder
Practice Quiz
Practice Quiz
Practice Quiz
Practice Quiz
Practice Quiz
Practice Quiz
Practice Quiz
Practice Quiz
Flows around a Circular Cylinder
Flows with Heat Transfer
Introduction to the Prediction of Heat Transfer
Heat Conduction in Solids
Natural Convection in Cavities: Laminar Flow
Natural Convection in Cavities: Turbulent Flow
Effects of Fluid Properties on Natural Convection
Natural Convection with Unstable Stratification
Simulation of Forced Convection Heat Transfer
Simulation of Conjugate Heat Transfer
Practice Quiz
Practice Quiz
Practice Quiz
Practice Quiz
Practice Quiz
Practice Quiz
Practice Quiz
Practice Quiz
Flows with Heat Transfer
Applied Computational Fluid Dynamics at Coursera Admission Process
Important Dates
Other courses offered by Coursera
Student Forum
Anything you would want to ask experts?