Add to ORKGA wave energy converter (WEC) has been developed at the Division of Electricity at Uppsala University. The Uppsala WEC is a point absorber consisting of a buoy on the surface and a linear generator situated on the sea floor. The current WEC is optimised for the wave climate at a specific location, this is however problematic in areas with large tidal variations. A compensation system adjusting the cable length according to the sea level is under development. This system is powered by rechargeable batteries which require an independent power source. One way to do this is to install a small buoy inside the main buoy which utilises the relative height between the sea level and the main buoy elevation. The small buoy can then be connected to a ...
The waves traveling on the surface of the world’s oceans carry atremendous amount of energy. The abi...
Ocean wave energy is a promising renewable source to contribute to supplying the world’s energy dema...
Uppsala University has been spending a lot of time and resources in developing wave energy converter...
Waves, just like wind and solar radiation, is a widely available renewable energy source. Waves are ...
The motion of ocean waves can be captured and converted into usable electricity. This indicates that...
The wave energy converter developed at Uppsala University consists of a linear generator at the seab...
The Earth is also called the blue planet, because more than 70 % of its surface is covered by water,...
The wave energy converter (WEC) developed at Uppsala University is based on the concept of a heaving...
Oceans cover two thirds of the Earth’s surface and the energy potential of ocean waves as a renewabl...
This paper details the mechanical design of a wave power generation system comprising a buoy that ho...
The power production of the linear generator wave energy converter developed at Uppsala University i...
In this thesis, the performance of a wave energy converter (WEC) consisting of a single point absorb...
This thesis is focused on development of models and modelling of a wave energy converter in operatio...
Within the Lysekil wave energy research project at the Swedish west coast, more than ten Wave Energy...
The waves traveling on the surface of the world’s oceans carry atremendous amount of energy. The abi...
Ocean wave energy is a promising renewable source to contribute to supplying the world’s energy dema...
Uppsala University has been spending a lot of time and resources in developing wave energy converter...
Waves, just like wind and solar radiation, is a widely available renewable energy source. Waves are ...
The motion of ocean waves can be captured and converted into usable electricity. This indicates that...
The wave energy converter developed at Uppsala University consists of a linear generator at the seab...
The Earth is also called the blue planet, because more than 70 % of its surface is covered by water,...
The wave energy converter (WEC) developed at Uppsala University is based on the concept of a heaving...
Oceans cover two thirds of the Earth’s surface and the energy potential of ocean waves as a renewabl...
This paper details the mechanical design of a wave power generation system comprising a buoy that ho...
The power production of the linear generator wave energy converter developed at Uppsala University i...
In this thesis, the performance of a wave energy converter (WEC) consisting of a single point absorb...
This thesis is focused on development of models and modelling of a wave energy converter in operatio...
Within the Lysekil wave energy research project at the Swedish west coast, more than ten Wave Energy...
The waves traveling on the surface of the world’s oceans carry atremendous amount of energy. The abi...
Ocean wave energy is a promising renewable source to contribute to supplying the world’s energy dema...
Uppsala University has been spending a lot of time and resources in developing wave energy converter...