Learn CFD with Solidworks
β±οΈ Length: 3.6 total hours
β 4.34/5 rating
π₯ 11,951 students
π February 2024 update
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Course Overview
- Master SolidWorks Flow Simulation for Computational Fluid Dynamics (CFD). This course empowers engineers and designers to integrate advanced fluid analysis directly into their product development workflow for optimal performance outcomes.
- Seamlessly transition from design to analysis, using SolidWorks to accurately predict fluid behavior, analyze complex heat transfer, and refine product designs efficiently, leveraging the software’s powerful, integrated simulation capabilities.
- Updated in February 2024, the content reflects the latest software features and best practices, ensuring relevant and up-to-date knowledge. Its high rating from thousands of students underscores its effectiveness in delivering crucial simulation expertise quickly and effectively.
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Requirements / Prerequisites
- SolidWorks CAD Proficiency: A working understanding of SolidWorks for 3D modeling, including creating and modifying parts and assemblies, is fundamental, as this course builds upon these core skills for simulation setup.
- Basic Fluid Mechanics Concepts: While no prior CFD software experience is mandatory, a foundational grasp of basic fluid dynamics principles (e.g., flow types, pressure, velocity, viscosity) will significantly aid comprehension and accurate result interpretation.
- SolidWorks with Flow Simulation Access: Active software access to a SolidWorks installation that includes the SolidWorks Flow Simulation add-in is essential and mandatory to fully participate in the practical, hands-on exercises and demonstrations.
- An Analytical Mindset: A systematic and inquisitive approach to solving engineering challenges and exploring design optimizations through virtual experimentation is highly beneficial for success and engagement with the course material.
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Skills Covered / Tools Used
- Tools: This course exclusively focuses on leveraging SolidWorks and its fully integrated SolidWorks Flow Simulation add-in for all analysis tasks.
- Efficient Geometry Preparation: Learn advanced techniques for preparing and simplifying complex CAD models to ensure optimal accuracy and efficiency in fluid dynamics simulations within the SolidWorks environment.
- Intelligent Meshing Strategies: Master SolidWorks Flow Simulation’s automated meshing capabilities, including strategic use of local mesh controls and adaptive refinement, to achieve precise solutions across diverse flow conditions.
- Advanced Flow Physics Definition: Gain expertise in accurately setting up a wide array of physical conditions, such as defining various fluid properties, modeling porous media, incorporating rotational regions, and specifying comprehensive thermal interactions for multi-physics analysis.
- Insightful Post-processing & Visualization: Develop advanced skills in interpreting and presenting complex simulation outcomes through dynamic visualizations like detailed flow trajectories, informative cut plots, surface parameter mapping, and animated fluid movement to extract critical design insights.
- Data-Driven Performance Tracking: Implement and configure advanced “Goals” and “Sensors” to automatically monitor and extract crucial Key Performance Indicators (KPIs) such as pressure drop, aerodynamic forces, heat transfer rates, and flow velocities, facilitating informed design optimization.
- Professional Report Generation: Learn to create detailed, customizable simulation reports directly from SolidWorks Flow Simulation, effectively summarizing methodologies, presenting results, and communicating design recommendations to stakeholders and project teams.
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Benefits / Outcomes
- Accelerated Product Development: Significantly reduce product development cycles by virtually validating and optimizing design performance early, minimizing reliance on costly and time-consuming physical prototypes.
- Reliable Performance Prediction: Gain the ability to accurately forecast how your designs will behave in real-world fluid and thermal environments, identifying potential issues or areas for improvement long before physical testing.
- Enhanced Design Innovation: Empower your design process with robust, quantitative data-backed insights, enabling the creation of more efficient, reliable, and truly innovative products that stand out in the market.
- Reduced Development Costs: Minimize expenses associated with material waste, manufacturing rework, and extensive physical testing by making informed, simulation-backed design decisions throughout the product lifecycle.
- Valuable Industry Skills: Acquire a highly sought-after and transferable skill set in engineering simulation, significantly boosting your career prospects and professional versatility across numerous industrial sectors.
- Confident Design Optimization: Develop the capability to systematically refine and improve designs based on objective CFD data, leading to superior product functionality, efficiency, and overall performance.
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Pros
- Practical Application Focus: The course emphasizes direct, hands-on application, ensuring learners can immediately implement acquired knowledge in their engineering projects using an industry-standard tool.
- Time-Efficient Learning: Delivers critical CFD skills in a concise format, making it ideal for busy professionals seeking rapid and effective upskilling without a lengthy time commitment.
- Current and Relevant Content: Updated in February 2024, the curriculum guarantees that you learn with the latest SolidWorks Flow Simulation features and contemporary industry best practices.
- Seamless Integration: Leverages your existing SolidWorks proficiency, making the transition to advanced CFD analysis intuitive and less daunting, as it’s integrated within your familiar CAD environment.
- Highly Rated by Students: A strong endorsement from thousands of learners signifies the course’s quality, clarity, and proven practical value in teaching complex simulation topics.
- Accessible Entry Point: Offers an excellent and accessible pathway into the world of computational fluid dynamics specifically tailored for individuals already proficient in SolidWorks CAD.
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Cons
- Limited Theoretical Depth: Due to its practical, software-specific nature and brevity, the course may not delve into the deep underlying mathematical theories or explore alternative advanced numerical methods of CFD, which might be crucial for academic research or highly specialized fluid dynamics problems beyond SolidWorks Flow Simulation’s capabilities.
Learning Tracks: English,Teaching & Academics,Engineering
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