Ansys Developer’s Post

Unsteady Lid Driven Cavity Simulation with Python Jupyter Notebook 💻 Lid Driven Cavity Simulation: This simulation uses Python and Jupyter Notebook to demonstrate an unsteady lid-driven cavity flow. 🔬 Simulation Details: • Domain Size: 1m x 1m • Grid Layout: 50x50 • Reynolds Number: 400 • Lid Speed: 2 m/s • Kinematic Viscosity: 0.005 m²/s • Algorithm: Finite Volume Method (FVM), SIMPLE Algorithm 📊 Computational Fluid Dynamics: This setup offers an insightful example of fluid dynamics, ideal for studying flow characteristics in a confined space using accessible tools. 🔗 Learn more: https://lnkd.in/gtV45ACy 💳 Content Credit: See Kangluo #CFD #Python #FVM #FluidDynamics #JupyterNotebook #SIMPLEAlgorithm #Engineering #Simulation #TechEngineering #HighPerformanceComputing

Are you interested in performing basic tasks in terms of ✦ modeling, ✦ setup of simulation, ✦ and various analyses of the results in postprocessing using result template or python? 👉🏻 Become acquainted with the essentials of the various high frequency solvers and get to know the CST Studio Suite interface.   👉🏻 Frank Demming-Janssen is looking forward to meeting you for the course “Introduction to CST Studio Suite”, which will take place in Münster on 13 February. 📌 More information and registration: https://lnkd.in/e78hJvD4   #simulation #simulationanalyst #simulationsetup #highfrequency #solver #CAD

🔧 New Project Alert! 🔧 I’m thrilled to share my latest endeavor: a Python program that analyzes cantilever beam deflection under uniformly distributed loads (UDL). 📊 Key Features: Inputs: Modulus of Elasticity, Beam Length, Moment of Inertia, Uniform Load Outputs: Visual representation of deflection using Matplotlib This project has not only strengthened my programming skills but also expanded my knowledge of structural engineering principles. I’m eager to connect with fellow enthusiasts and professionals in the field. Let’s share insights and collaborate! #StructuralEngineering #PythonProgramming #BeamDeflection #DataVisualization

🌟 Are you working toward shape optimization for engineering components for strength and endurance? 🌟 👉 Learn how to optimize the shape of a motorcycle swingarm using MATLAB and Python at #MATLABEXPO https://spr.ly/6044UvJp4

💡 3 key innovations and developments in Ansys Digital Twins since its launch in 2018: 1️⃣ ROMs: converting high-fidelity simulations into real-time operations, transforming hours-long simulations into actionable insights. 2️⃣ Hybrid Analytics: Combine data with physics for higher accuracy and adaptable digital twins that evolve over time based on actual operating conditions. 3️⃣ Deployment and Scaling: Easily scale your digital twin models using published APIs, container technology, and Python/browser-based scaffolding code. Discover more in this 1st Episode of The Twin Talks: https://ansys.me/3RzUy6I #DigitalTwins #Innovation

#Day24 of CodeSprint organised by USC.KIIT The visualization of a simple particle simulator. This has been inspired from the concept of Brownian Motion or Kinetic Theory of Gases in Physics. Link to the original post 👉 https://lnkd.in/gNdeUB_s #Python #USCKIIT

How to calculate AC losses in #HTS tape with Quanscient Allsolve? In the theme of our webinar last week, let's go into the details of calculating AC losses in HTS with Allsolve. It all starts with creating the project and importing your geometry. After that, you simply want to define your • Shared regions • Materials • Shared expressions, & • Physics and boundary conditions After adding your desired outputs you can modify the auto-generated Python script, run the simulation, and visualize the results. Piece of cake! Our step-by-step tutorial below walks you through the entire process in greater detail.

Mastering Engineering Mechanics with Python! 🐍 Discover the elegance of Lamis Theorem through code, unlocking the power to solve complex problems with precision and efficiency. Elevate your engineering skills and embrace the synergy of theory and technology. 💡🔧 #Engineering #PythonCoding #Mechanics"

🚀 Dive into the exciting world of physics with Python! 🌟 "Python in Physics: Model, Simulate, Visualize" is your ultimate guide to mastering physics through modeling, simulation, and visualization using Python. 💻 Whether you're a student, educator, or physics enthusiast, this book will take your understanding of the universe to new heights! 🌌 Don't miss out on this opportunity to explore physics in a fun and interactive way—get your copy today and embark on an epic journey through the cosmos! 📚🐍 #PythonPhysics #ModelSimulateVisualize #PhysicsAdventure 🌟🔭https://lnkd.in/gSBdVTKN