To generate a substantial amount of power, Wave Energy Converters (WECs) are arranged in several rows or in a ‘farm’. Both the power production and cost of a farm are lay-out dependent. In this paper, the wave power redistribution in and around three farm lay-outs in a near shore North Sea wave climate, is assessed numerically using a time-dependent mild-slope equation model. The modelling of the wave power redistribution is an efficient tool to assess the power production of a farm. Further, for each lay-out an optimal (low cost) submarine cable network is designed. The methodology to assess the power production and cost of a farm of WECs is applied to the Wave Dragon Wave Energy Converter (WD–WEC). The WD–WEC is a floating offshore conver...
The increasing energy demand, the need to reduce greenhouse gas emissions and the shrinking reserves...
The wave energy converter (WEC) developed at Uppsala University is based on the concept of a heaving...
In this work, we present a methodology for the assessment of the economic value of ocean wave energy...
To generate a substantial amount of power, Wave Energy Converters (WECs) are arranged in several row...
Several Wave Energy Converters (abbreviated as WECs) have intensively been studied and developed dur...
International audienceElectrical power generated from sustainable energies, such as marine renewable...
To be commercially viable, wave energy converters (WECs) will need to be deployed in arrays or “wave...
Most Wave Energy Converters (WECs) produce highly distorted power due to the reciprocal motion induc...
The need for renewable energy is rising at light-speed. The increasing energy demand, the greenhouse...
Oscillating Water Column based wave energy plants built so far have experienced a low efficiency in ...
Oscillating Water Column based wave energy plants built so far have experienced a low efficiency in ...
The contribution of Wave Energy Converters (WECs) to the renewable energy supply is continuously ris...
In the transition to renewable energy, harvesting the power from oceanic waves is often mentioned to...
The idea to use the motion of a wavy sea surface to produce electricity was investigate in the seven...
The contribution of wave energy to the renewable energy supply is rising. To extract a considerable ...
The increasing energy demand, the need to reduce greenhouse gas emissions and the shrinking reserves...
The wave energy converter (WEC) developed at Uppsala University is based on the concept of a heaving...
In this work, we present a methodology for the assessment of the economic value of ocean wave energy...
To generate a substantial amount of power, Wave Energy Converters (WECs) are arranged in several row...
Several Wave Energy Converters (abbreviated as WECs) have intensively been studied and developed dur...
International audienceElectrical power generated from sustainable energies, such as marine renewable...
To be commercially viable, wave energy converters (WECs) will need to be deployed in arrays or “wave...
Most Wave Energy Converters (WECs) produce highly distorted power due to the reciprocal motion induc...
The need for renewable energy is rising at light-speed. The increasing energy demand, the greenhouse...
Oscillating Water Column based wave energy plants built so far have experienced a low efficiency in ...
Oscillating Water Column based wave energy plants built so far have experienced a low efficiency in ...
The contribution of Wave Energy Converters (WECs) to the renewable energy supply is continuously ris...
In the transition to renewable energy, harvesting the power from oceanic waves is often mentioned to...
The idea to use the motion of a wavy sea surface to produce electricity was investigate in the seven...
The contribution of wave energy to the renewable energy supply is rising. To extract a considerable ...
The increasing energy demand, the need to reduce greenhouse gas emissions and the shrinking reserves...
The wave energy converter (WEC) developed at Uppsala University is based on the concept of a heaving...
In this work, we present a methodology for the assessment of the economic value of ocean wave energy...