These simulations were produced using a revolutionary cloud based CFD and FEA engineering platform, by SimScale, who have kindly sponsored this article. We can compare the performance of different ductwork designs, quickly and easily using CFD or computational fluid dynamics. We’re going to focus on the equal friction method in this example as it’s the most common method used for commercial HVAC systems and its fairly simple to follow. Static regain: Very large installations (concert halls, airports and industrial).Equal friction method: (Medium to large sized commercial installations).Velocity reduction method: (Residential or small commercial installations).There are many different methods used to design ventilation systems, the most common ways being: Find thousands of ready-to-use simulation templates created by SimScale’s users which you can copy and modify for your own analysis:.Read more about the benefits of using cloud-based engineering simulation and the SimScale Community here:.Discover more than 50 free on-demand webinars on different topics, from ventilation or data center design and wind load analysis to aerospace, F1, and sports aerodynamics here: ….🏆🏆🏆 Create a free SimScale account to test the cloud-based CFD simulation platform here: With 100,000+ users worldwide, SimScale is a revolutionary cloud-based CAE platform that gives instant access to CFD and FEA simulation technology for quick and easy virtual testing, comparison and optimization of designs in several industries, including HVAC, AEC, and electronics.
Scroll to the bottom to watch the FREE YouTube video tutorial! We’ll include a full worked example as well as using CFD simulations to optimise the performance and efficiency using SimScale. In this article we’ll be learning how to size and design a ductwork system for efficiency.
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