This article discusses the use of computational fluid dynamics to optimize Francis turbine blade design, resulting in a 2.5% increase in power output.
This study explores the effects of blade design modifications on the performance of Francis turbines, including the impact of blade angle and cambered surface on power output.
This conference paper presents a case study on the optimization of a hydroelectric power plant through the redesign of Francis turbine blades, resulting in a 5% increase in power generation.
This software tool allows users to design and optimize Francis turbine blades for enhanced power generation, including features such as automated meshing and CFD analysis.
This journal article discusses the potential for enhancing power generation in Francis turbines through blade design modifications, including the use of additive manufacturing techniques.
This online course covers the fundamentals of Francis turbine blade design and optimization, including the use of computational fluid dynamics and experimental testing.
This official document provides guidelines for the design and testing of Francis turbines, including recommendations for blade design and optimization.
This video tutorial demonstrates the use of OpenFOAM for the design and analysis of Francis turbine blades, including the simulation of fluid flow and pressure distribution.