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Optimization and Modelling to Enhance Hydroturbine Performance
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In this study, a new design of a hydroturbine was developed, modelled, and constructed. The unique features of this turbine design required a thorough investigation and optimization process to enhance hydroturbine performance. The paper discusses numerical and experimental results obtained on the hydroturbine. The optimal angle of attack for the inlet flow direction has been computed from numerical modelling. Consequently, data on velocity, pressure, lift, and drag forces along the blade have been obtained. The study also takes into account the operation of the hydroturbine under non-rotating and rotating rotor modes. Performance metrics such as head, torque, hydraulic power, hydroturbine power, and efficiency were then calculated based on water discharge. These performance calculations were conducted using COMSOL Multiphysics, employing Direct Numerical Simulation and k-epsilon methods. Numerical calculations offer a cost-effective approach to reducing the financial burden associated with material costs for manufacturing hydroturbine prototypes.
Title: Optimization and Modelling to Enhance Hydroturbine Performance
Description:
In this study, a new design of a hydroturbine was developed, modelled, and constructed.
The unique features of this turbine design required a thorough investigation and optimization process to enhance hydroturbine performance.
The paper discusses numerical and experimental results obtained on the hydroturbine.
The optimal angle of attack for the inlet flow direction has been computed from numerical modelling.
Consequently, data on velocity, pressure, lift, and drag forces along the blade have been obtained.
The study also takes into account the operation of the hydroturbine under non-rotating and rotating rotor modes.
Performance metrics such as head, torque, hydraulic power, hydroturbine power, and efficiency were then calculated based on water discharge.
These performance calculations were conducted using COMSOL Multiphysics, employing Direct Numerical Simulation and k-epsilon methods.
Numerical calculations offer a cost-effective approach to reducing the financial burden associated with material costs for manufacturing hydroturbine prototypes.
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