Add to ORKGEfficient small scale axial air turbine is one of the proposed solutions for improving the overall efficiency of energy recovery cycles based on renewable energy sources. Turbine design requires an intensive CFD simulation and design optimization to identify optimal blade profile for maximum efficiency. Axial turbine rotor optimization was carried out usingdifferent optimization techniques available in ANSYS CFX. The highest rotor efficiency was accomplished using Multiobjective optimization algorithm (MOGA) with highest turbine efficiency of 87.78% was achieved
Advances in optimization techniques can be used to enhance the performance of turbines in various ap...
AbstractStudies are conducted on axial hydraulic turbine for very low head application which operate...
Advances in optimization techniques can be used to enhance the performance of turbines in various ap...
Efficient small scale axial air turbine is one of the proposed solutions for improving the overall e...
Small scale distributed compressed air energy storage (D-CAES) has been recognized as promising tech...
Small scale axial air driven turbine (less than 10 kW) is the crucial component in distributed power...
Small scale axial air driven turbine (less than 10 kW) is the crucial component in distributed power...
Increasing the cycle efficiency of Organic Rankine Cycles is an important R&D area. In this study, a...
Increasing the cycle efficiency of Organic Rankine Cycles is an important R&D area. In this study, a...
Increasing the cycle efficiency of Organic Rankine Cycles is an important R&D area. In this study, a...
Increasing the cycle efficiency of Organic Rankine Cycles is an important R&D area. In this study, a...
Increasing the cycle efficiency of Organic Rankine Cycles is an important R&D area. In this study, a...
Increasing the cycle efficiency of Organic Rankine Cycles is an important R&D area. In this study, a...
Increasing the cycle efficiency of Organic Rankine Cycles is an important R&D area. In this study, a...
This research aims to study in a comprehensive way a different power generation cryogenic energy sto...
Advances in optimization techniques can be used to enhance the performance of turbines in various ap...
AbstractStudies are conducted on axial hydraulic turbine for very low head application which operate...
Advances in optimization techniques can be used to enhance the performance of turbines in various ap...
Efficient small scale axial air turbine is one of the proposed solutions for improving the overall e...
Small scale distributed compressed air energy storage (D-CAES) has been recognized as promising tech...
Small scale axial air driven turbine (less than 10 kW) is the crucial component in distributed power...
Small scale axial air driven turbine (less than 10 kW) is the crucial component in distributed power...
Increasing the cycle efficiency of Organic Rankine Cycles is an important R&D area. In this study, a...
Increasing the cycle efficiency of Organic Rankine Cycles is an important R&D area. In this study, a...
Increasing the cycle efficiency of Organic Rankine Cycles is an important R&D area. In this study, a...
Increasing the cycle efficiency of Organic Rankine Cycles is an important R&D area. In this study, a...
Increasing the cycle efficiency of Organic Rankine Cycles is an important R&D area. In this study, a...
Increasing the cycle efficiency of Organic Rankine Cycles is an important R&D area. In this study, a...
Increasing the cycle efficiency of Organic Rankine Cycles is an important R&D area. In this study, a...
This research aims to study in a comprehensive way a different power generation cryogenic energy sto...
Advances in optimization techniques can be used to enhance the performance of turbines in various ap...
AbstractStudies are conducted on axial hydraulic turbine for very low head application which operate...
Advances in optimization techniques can be used to enhance the performance of turbines in various ap...