Industry Oriented Program On CFD With Ansys Fluent
Complete Lecture on Computational Fluid Dynamics with Industry Standards

What you will learn
Finite Volume Methos
Finite Element Analysis
Aerodynamics
Fluid Dynamics
Computational Fluid Dynamics
Meshing
Ansys Fluent
Flow Propagation
Design Standards
Why take this course?
π Industry Oriented Program On CFD With Ansys Fluent π
Course Headline: π "Complete Lecture on Computational Fluid Dynamics with Industry Standard - Master Ansys Fluent!" π
Course Description:
Dive into the world of computational fluid dynamics (CFD) and master the industry-standard software, Ansys Fluent. This comprehensive course is meticulously designed to equip you with in-depth knowledge of the finite element analysis (FEA) and the finite volume method (FVM), essential for high-quality product development tailored to client requirements.
With a focus on real-world industrial applications, this course will guide you through the entire process of executing CFD operations as per industry needs. By following industry methods in our lectures and covering all necessary topics to solve complex fluid dynamics problems, you'll be well-prepared to tackle any structural challenge.
What You Will Learn:
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Pre-Processing: Get acquainted with Ansys and its user interface. Master model creation, including sketching, constraining, modeling, plane creation, de-featuring, geometry idealization, body splitting, slicing, adding fillets/chamfers, incorporating holes/slots, importing/exporting geometries, working with mid-surfaces, and combining geometries. You'll also learn how to apply different materials to your models.
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Meshing: Understand the fundamentals of meshes, explore various element shapes like 2D and 3D, and learn about mapped face, structured, and unstructured meshing. Discover the advantages of each mesh type, how to control mesh size and quality, and input parameters effectively.
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Solving: Run your setup with confidence and expertise.
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Post-Processing: Gain proficiency in taking different outputs, creating animations, interpreting results, generating automatic reports, conducting grid independent studies, and managing Ansys projects both during and after simulations.
Course Syllabus:
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Pre-Processing
- Introduction to Ansys
- Introduction to FEM and FVM
- Navigating the Ansys User Interface
- Model Creation In Ansys
- Sketching, Constraining, Modeling
- Planes Creation, Model De featuring, Geometry Idealization
- Body Splitting, Body Slicing, Fillets, Chamfers, Holes, Slots
- Geometry Import/Export, Mid-Surface, Geometry Combine
- Default Shapes and Applying Materials
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Meshing
- Introduction to Meshes
- Different Element Shapes (2D & 3D)
- Mapped Face Meshing, Structured Meshing, Unstructured Meshing
- Mesh Layering, Mesh Size Control, Mesh Quality
- Giving Input Parameters
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Solving
- Running the Setup
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Post-Processing
- Taking Different Outputs, Creating Animation
- Results Interpretation, Creation of Automatic Reports
- Grid Independent Study, Ansys Project Export/Management
Why Take This Course? π
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Industry-Relevant Skills: This course is designed to align with real-world CFD projects, ensuring you can apply your knowledge directly in an industrial setting.
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Hands-On Learning: With a wealth of practical exercises and real-life examples, you'll develop the skills to handle complex CFD problems confidently.
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Expert Instruction: Learn from an experienced instructor who brings industry insights and a wealth of knowledge in applying Ansys Fluent to various applications.
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Flexible Learning: Access course materials at your own pace, making it perfect for busy professionals looking to upskill without disrupting their schedule.
By completing this course, you'll be well-equipped to perform CFD simulations with precision and efficiency, ready to meet the demands of industry projects and contribute significantly to your organization's success. ππΌπ
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Our review
π« Course Overview:
The "Industry-Oriented Computational Fluid Dynamics (CFD) using ANSYS Workbench" course has garnered a global rating of 4.10 from recent reviews. This course is well-suited for beginners who are new to CFD and looking to understand the software's applications, particularly ANSYS ICEM, Fluent, and ANSYS Workbench.
Pros:
- Beginner-Friendly: The course provides a comprehensive introduction to CFD and its applications, making it ideal for those starting out in this field.
- Quality Instruction: The tutor, Mr. Shankar, has been commended for his clear explanations, especially in the Design Modeler and Mesher sections.
- Clarity on Basics: The course is praised for its clarity in explaining the basics of ANSYS Workbench, which is particularly helpful for beginners.
- Effort and Content Quality: There is recognition of the effort put into covering essential topics that a student should know.
- Positive Feedback: A significant number of students found value in the course and appreciated the instructor's efforts.
Cons:
- Content Level: Some reviews suggest the content is too basic, especially for those who are already familiar with CFD and ANSYS tools.
- Lack of Advanced Content: There is an expectation for more detailed content about the tools, options, and variations within ANSYS Workbench to cater to a broader range of learner expertise.
- Practical Application: The course currently lacks practical assignments to allow students to apply their knowledge and for instructors to verify their understanding.
- Industrial Focus: The course is perceived as lacking in the application of CFD to industry problems, with some suggesting that more real-world problems should be included to enhance its industry orientation.
- Misalignment with Course Name: There are concerns that the course does not fully align with the name "Industry-Oriented," as it spends a significant portion on introduction and meshing rather than focusing more on industrial applications.
Course Features and Suggestions for Improvement:
- Completion Rate: The course completes 50% of its content in the introduction and meshing sections, which might be too much for beginners who are already familiar with these aspects.
- Theoretical and Practical Assignments: Some students have suggested that including both theoretical and practical assignments at the end of each section would greatly enhance learning and comprehension.
- Inclusion of Real-World Examples: There is a strong recommendation for incorporating more industrial problems to showcase the application of Fluent models, assembly parts usage, and the uses of each module in solutions.
- Updates and Additional Content: A suggestion has been made for more detailed content in upcoming updates, including variations and options within the tools.
- Peer Comparison: Some students have noted that they expected more from the course compared to what they could find on YouTube or other free resources, which raises questions about the course's value for its cost.
Conclusion:
Overall, the "Industry-Oriented Computational Fluid Dynamics (CFD) using ANSYS Workbench" course is appreciated for its beginner-focused content and clear instruction. However, to better meet the expectations of more experienced learners and those looking for industry applications, the course could benefit from incorporating more advanced content, real-world problems, and practical assignments. With these improvements, it has the potential to become a more comprehensive resource for CFD learners at all levels.