CFDLAND

The advancement of #renewable_energy technologies is significantly supported by the innovative #Dual_Savonius_wind_turbine. This turbine features a distinctive #vertical_axis design that incorporates two Savonius rotors. One of its most remarkable attributes is its ability to operate efficiently even at low wind speeds, making it suitable for various urban and rural environments where wind conditions may not be ideal. The Dual Savonius turbine is particularly attractive as a sustainable energy solution due to its characteristics, which include low starting torque and minimal noise production. To optimize the performance of these turbines, computational fluid dynamics (#CFD) simulations play a vital role by providing critical insights into airflow patterns, as well as the drag and lift forces acting on the rotors. Integrating Dual Savonius turbines into wind farms can significantly enhance a diversified energy portfolio, thereby improving energy security and reducing reliance on fossil fuels in light of the growing global demand for renewable energy. This research will explore the features of Dual Savonius turbines and the impact of CFD simulations on their efficiency and design, drawing from the reference paper titled “Design optimization of an innovative deflector with bleed jets to enhance the performance of dual Savonius turbines using CFD-Taguchi method"[1]. [1]: https://lnkd.in/dkTxhxEg ⬇️ More information: https://lnkd.in/dDKernwm #RenewableEnergy #WindTurbines #SavoniusTurbine #CFDSimulation #ANSYSFluent #SustainableEnergy #EnergyEfficiency #CleanTech #VerticalAxisTurbine #WindEnergy #EnergyInnovation #UrbanRenewables #FossilFuelAlternatives #ComputationalFluidDynamics #EngineeringResearch #EnergySecurity #GreenTechnology #LowWindSpeedTurbines #TurbineDesign #RenewableTech

#Flat_plate_solar_collectors comprise a flat, rectangular panel with a transparent cover, an absorber plate, and insulation. The cover allows sunlight to pass through and reach the absorber plate, which converts it into heat energy. The heat is transferred to a fluid that flows through tubes or channels within the collector, usually water or a heat transfer fluid. The heated fluid has many applications, including domestic hot water heating, space heating, pool heating, industrial process heating, and solar drying. They provide a sustainable and eco-friendly method of harnessing solar energy, offering an alternative to traditional energy sources and helping to decrease greenhouse gas emissions. In this project, we utilize a #solar_ray_tracing_model to simulate the performance of a flat plate solar collector in Ukraine. The specific geographical coordinates chosen for the simulation are a latitude of 51.531 and a longitude of 25.2854. Furthermore, the paper entitled “Energy and exergy comparison of a flat-plate solar collector using water, Al2O3 nanofluid, and CuO nanofluid [1]” is chosen as the base paper to follow and take correct estimated inputs. [1]: https://lnkd.in/duNHS8Gs 🔽 More information: https://lnkd.in/dthiwfHn #SolarEnergy #FlatPlateCollector #CFDSimulation #ANSYSFluent #RenewableEnergy #SustainableTech #SolarRayTracing #HeatTransfer #EnergyEfficiency #GreenTechnology #CleanEnergy #SolarHeating #EcoFriendly #EngineeringSimulation #Nanofluids #UkraineEnergy #ClimateAction #SolarInnovation #ResearchAndDevelopment

In #gas_turbine engines, #film_cooling is an essential method for protecting turbine blades from high temperatures. By using this technique, a thin layer of cooler air is created to act as a barrier between the hot gas stream and the blade material by expelling cold air via tiny holes on the blade surface. Given its importance in many industries, a #CFD study is conducted, relying on the reference paper entitled “ An experimental study on the improvements in the film cooling performance by an upstream micro-vortex generator”. ⬇️ More information: https://lnkd.in/eSyvXXhq #CFDSimulation #FilmCooling #ANSYSFluent #GasTurbine #TurbineBladeProtection #EngineeringTraining #ThermalManagement #FluidDynamics #AerospaceEngineering #HeatTransfer

🏆 The Most Comprehensive Guide to DPM Drag Laws You’ll Find Online 📢 Engineers, if you’re working with multiphase flows in ANSYS Fluent, this is a must-read! We’ve just published what we believe is the most comprehensive guide on 💡Discrete Phase Model Drag Laws💡 available online. 🔍 Why This Blog Stands Out: Drag forces fundamentally impact your simulation accuracy. Whether you’re designing spray systems, analyzing particle trajectories, or optimizing multiphase flows - choosing the wrong drag law can make or break your results. Covers ALL major drag law models in ANSYS Fluent 📊 What’s Inside: • DPM-Spherical Drag Law • DPM Non-Spherical Drag Law • Stokes-Cunningham Drag Law • High-Mach-Number Drag Law • Dynamic Drag Law • Ishii-Zuber & Grace Drag Laws 🔗 Access this comprehensive resource here: https://lnkd.in/eEcSRJgV #CFD #ANSYSFluent #MultiphaseFlow #Engineering #Simulation #FluidDynamics #ِDPM #DiscretePhaseModel

#Particle_filtration is an essential step for modern engineering applications, including environmental protection, industrial #air_quality management, and #clean_room technologies. This work examines the intricate dynamics of particle filtration via advanced #CFD simulation utilizing #ANSYS_Fluent, specifically emphasizing the inclusion of #Brownian_force effects through User-Defined Functions (#UDFs). The Discrete Phase Model (#DPM) facilitates careful tracking of particle trajectories and their interactions with the fluid medium, which is particularly vital for submicron particles where Brownian motion markedly affects filtration effectiveness. This study seeks to utilize advanced numerical techniques to clarify the microscopic behavior of particles in filtration processes, hence enhancing the design and performance predicts of #filtration_systems. This study established based on the reference paper entitled “Modeling particle filtration in disordered 2-D domains: A comparison with cell models [1]” published in Separation and Purification Technology Journal. [1]: https://lnkd.in/dGDTzJJa ⬇️ More information: https://lnkd.in/dX5ewFG7 #ParticleFiltration #CFDSimulation #ANSYSFluent #EnvironmentalEngineering #AirQualityManagement #CleanRoomTechnology #BrownianMotion #DiscretePhaseModel #FiltrationSystems #NumericalTechniques #EngineeringResearch #AdvancedSimulation #IndustrialFiltration #SeparationTechnology #ResearchInnovation

This study explores the dynamic behavior of two circular cylinders subjected to vortex-induced vibration (#VIV) using #ANSYS_Fluent. Employing the #dynamic_mesh and Six Degrees of Freedom (#SixDOF) method, the interaction between fluid flow and structural motion is analyzed comprehensively. The investigation captures the fluid-structure coupling, elucidating key parameters such as vibration amplitude, frequency response, and wake dynamics under varying flow conditions. The findings provide valuable insights for engineering applications where VIV plays a critical role, including #offshore_structures, #pipelines, and #heat_exchangers, enhancing design resilience and efficiency. ⬇️ More information: https://lnkd.in/dcr99S6E #VortexInducedVibration #FluidStructureInteraction #ANSYSFluent #DynamicMesh #SixDOF #EngineeringResearch #WakeDynamics #OffshoreEngineering #PipelineDesign #HeatExchangerEfficiency #StructuralAnalysis #FluidDynamics #EngineeringInnovation #DesignResilience #ResearchInsights

🔥 The Power of #NaturalConvection in Engineering Ever wondered why hot air rises? That’s natural convection at work! 🎯 In our latest CFDLAND blog, we explore this fascinating phenomenon that shapes: • #CoolingSystems in electronics 📱 • #HVAC design in buildings 🏢 • Weather patterns in our atmosphere 🌤 • Industrial process #optimization ⚙️ • #HeatTransfer Basis 📚 What you’ll learn: ✓ Core principles of natural convection ✓ Heat transfer coefficient calculations ✓ Practical applications across industries ✓ #ANSYSFluent simulation techniques ✓ Comparison with forced #convection 🔍 Read More: https://lnkd.in/ei8am8Mw #Engineering #CFD #ThermalManagement #HVAC #Thermal

🚀 Start Your CFD Journey with a Classic Benchmark Problem! 🎥 We’re excited to announce our latest FREE tutorial on YouTube: Lid-driven Cavity CFD Simulation using ANSYS Fluent – a Validation Study based on the renowned benchmark paper by Ghia et al. 💡 Whether you’re a beginner in Computational Fluid Dynamics (CFD) or looking to strengthen your fundamentals, this tutorial is the perfect starting point. The lid-driven cavity problem is one of the most fundamental and widely studied problems in fluid dynamics, making it an essential step for anyone who is interested in CFD. 🔍 What’s in it for you? ✅ Step-by-step guidance on setting up and solving the problem in ANSYS Fluent ✅ Validation of results using benchmark data from Ghia’s classic paper ✅ Clear explanations for beginners ✅ Insights into the importance of validation in CFD 📺 Watch it now!👉https://lnkd.in/ebGxAFxD #CFD #ANSYSFluent #LidDrivenCavity #FluidDynamics #Engineering #Simulation #BeginnersGuide #FreeTutorial #Validation

🚀 Level Up Your CFD Skills with PCM Applications! 🚀 Explore the world of #PhaseChangeMaterials (PCM) with CFDLAND's specialized training. These cutting-edge courses offer validated simulations and practical applications for diverse devices. 1️⃣ PCM in #SolarPanels: Optimize solar energy systems with our validated CFD simulation, backed by experimental research. 2️⃣ #PCMMelting in Tubes with Fins: Explore advanced heat transfer techniques with our CFD simulation of PCM melting within finned tubes. Validated by numerical papers 3️⃣ #Photovoltaic Systems with PCM & Metal-Foam: This study simulates a photovoltaic system enhanced with a metal-foam layer and PCM, offering cutting-edge insights validated by numerical research. ✅ All 3 are Validated simulations for reliable and accurate results. 🔥 Bonus: Get an incredible discount when you purchase all three courses! Message us for details on Whats app: +447833901310 🔥 This post could really help someone you know! Please share it with your friends and anyone who might benefit. Thanks for spreading the word! #CFD #PCM #Engineering #Simulation #RenewableEnergy #SolarEnergy #HeatTransfer #Photovoltaic #ProfessionalDevelopment #CFDLAND

Level up your CFD skills this Christmas! 🎁🎄 Looking for the perfect way to spend your holiday downtime? Watch our completely FREE ANSYS tutorial series on YouTube! We’re kicking things off with a deep investigation into Transonic (Compressible) Flow over a 3D NACA0012 Airfoil. This two-part tutorial is beginner-friendly, breaking down complex concepts into easy-to-follow steps. * Part I: Covers designing the airfoil in ANSYS DesignModeler and creating a structured grid using ANSYS Meshing. * Part II: Walks you through solver settings and post-processing. ➡️ Start learning now: Part I: https://lnkd.in/etTa5Yqv Part II: https://lnkd.in/euYSU2XF The best part? You can download all the simulation files from our website to follow along and practice! ➡️ Download the files: https://lnkd.in/efpDaYGB #CFD #ANSYS #Simulation #FreeTutorial #Engineering #Aerodynamics #Christmas