This paper analyses the performance of particular wave-energy converter that uses the gyroscopic effects of a large rotating fly-wheel in combination with a controlled power-take-off device. Controlled gyroscopic forces have been used successfully in the past to reduce the motion of marine structures. With appropriately designed power-take-off elements, gyroscopic forces can be controlled to optimise the extracted energy from the motion of marine structures
The WEPTOS wave energy converter (WEC) is a novel device that combines an established and efficient ...
The WaveGyro – A new Concept for Ocean Wave Energy Capture (Master Thesis by Gebhard Waizmann, Un...
Oceans account for 71 percent of the earth’s surface, marine resources and energy are abundant. Ther...
This paper analyses the performance of particular wave-energy converter that uses the gyroscopic eff...
Wave energy is one of the most promising renewable energy sources of the last few decades. Wave powe...
In wave energy field many problems have still to be solved in order to make the technologies reliabl...
The extraction of energy from ocean waves has been investigated in Europe since the 1970s. During th...
One of the critical points in wave power exploitation is that the energy source is highly unpredicta...
The oceans, which cover nearly 70% of the earth’s surface, can be considered as an inexhaustible ene...
The paper examines the behaviour of a pitching-and-surging wave-energy converter driven by unidirect...
This thesis proposes a new concept of an actively-controlled wave energy converter for suppressing t...
— ISWEC (Inertial Sea Wave Energy Converter) is a system using the gyroscopic reactions provided fro...
The ISWEC is a floating, slack-moored, gyroscopic Wave Energy Converter. The system consists of a fl...
Abstract. This paper presents the control strategy proposed for a new wave energy converter (WEC) de...
Salter's Duck can convert wave energy to mechanical energy with high efficiency up to 90%. The l...
The WEPTOS wave energy converter (WEC) is a novel device that combines an established and efficient ...
The WaveGyro – A new Concept for Ocean Wave Energy Capture (Master Thesis by Gebhard Waizmann, Un...
Oceans account for 71 percent of the earth’s surface, marine resources and energy are abundant. Ther...
This paper analyses the performance of particular wave-energy converter that uses the gyroscopic eff...
Wave energy is one of the most promising renewable energy sources of the last few decades. Wave powe...
In wave energy field many problems have still to be solved in order to make the technologies reliabl...
The extraction of energy from ocean waves has been investigated in Europe since the 1970s. During th...
One of the critical points in wave power exploitation is that the energy source is highly unpredicta...
The oceans, which cover nearly 70% of the earth’s surface, can be considered as an inexhaustible ene...
The paper examines the behaviour of a pitching-and-surging wave-energy converter driven by unidirect...
This thesis proposes a new concept of an actively-controlled wave energy converter for suppressing t...
— ISWEC (Inertial Sea Wave Energy Converter) is a system using the gyroscopic reactions provided fro...
The ISWEC is a floating, slack-moored, gyroscopic Wave Energy Converter. The system consists of a fl...
Abstract. This paper presents the control strategy proposed for a new wave energy converter (WEC) de...
Salter's Duck can convert wave energy to mechanical energy with high efficiency up to 90%. The l...
The WEPTOS wave energy converter (WEC) is a novel device that combines an established and efficient ...
The WaveGyro – A new Concept for Ocean Wave Energy Capture (Master Thesis by Gebhard Waizmann, Un...
Oceans account for 71 percent of the earth’s surface, marine resources and energy are abundant. Ther...