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Explore IndustryImproving Efficiency of Hydro Turbines with CFD
Improving Efficiency of Hydro Turbines with CFD
Learn how 3D computational fluid dynamics (CFD) can help you perform hydro turbine efficiency analysis to better predict performance.
In just about every part of the world, hydro power offers a reliable source for contributing clean and renewable energy to the electricity grid, helping to reduce greenhouse gas emissions. As the demand for hydro power increases, so does the demand for ever more efficient hydro turbines. But how do you know if the hydro turbines that you engineer are meeting performance and efficiency requirements?
If you rely primarily on physical tests of prototypes to determine the effectiveness of your designs, then your competition is already winning. Physical testing is too costly and time consuming for today’s fast-paced market. Instead, you need to know that your products are meeting performance requirements at each step of the development cycle before you ever cut a single prototype. This can be achieved through 3D computational fluid dynamics (CFD) simulation of hydro turbine performance.
In this webinar, learn how you can use 3D CFD to maximize turbine efficiency and predict turbine performance over a wide range of operating conditions.
Learn how Startup uses Simcenter Engineering Services and Simcenter STAR-CCM+ to develop heat pump that reduces energy costs
Read our case study to learn how heating and cooling equipment manufacturer uses Simcenter STAR-CCM+ to save time and costs by rapidly simulating multiple pump designs
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Learn how 3D computational fluid dynamics (CFD) can help you perform hydro turbine efficiency analysis to better predict performance.
In just about every part of the world, hydro power offers a reliable source for contributing clean and renewable energy to the electricity grid, helping to reduce greenhouse gas emissions. As the demand for hydro power increases, so does the demand for ever more efficient hydro turbines. But how do you know if the hydro turbines that you engineer are meeting performance and efficiency requirements?
If you rely primarily on physical tests of prototypes to determine the effectiveness of your designs, then your competition is already winning. Physical testing is too costly and time consuming for today’s fast-paced market. Instead, you need to know that your products are meeting performance requirements at each step of the development cycle before you ever cut a single prototype. This can be achieved through 3D computational fluid dynamics (CFD) simulation of hydro turbine performance.
In this webinar, learn how you can use 3D CFD to maximize turbine efficiency and predict turbine performance over a wide range of operating conditions.
Learn how Startup uses Simcenter Engineering Services and Simcenter STAR-CCM+ to develop heat pump that reduces energy costs
Read our case study to learn how heating and cooling equipment manufacturer uses Simcenter STAR-CCM+ to save time and costs by rapidly simulating multiple pump designs
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