The impact of both climate change and climate variability on the supply of intermittent renewable energy sources (I-RES) in Europe are assessed based on global climate model simulations. The main driver of climate variability over Europe is the North Atlantic Oscillation (NAO) in winter and its equivalent in summer (sNAO) which determine to a large extent the atmospheric circulation in Europe. Four climate scenarios are constructed distinguished by a moderate and strong increase of the average global surface temperature, and a positive and negative phase of the atmospheric variability over the North Atlantic and Europe. This spans a framework which combines the effects of both climate change and climate variability. Using a 2050 distributio...
International audienceIndicators Wind capacity factors: based on three power curves representative o...
Climate change can strongly affect renewable energy production. The state of the art in projecting f...
Climate change can strongly affect renewable energy production. The state of the art in projecting f...
The impact of both climate change and climate variability on the supply of intermittent renewable en...
To mitigate climate change a renewable energy transition is needed. Existing power systems will need...
The high temporal variability of wind power generation represents a major challenge for the realizat...
The growing share of variable renewable energy increases the meteorological sensitivity of power sys...
To reach its goal of net greenhouse gas neutrality by 2050, the European Union seeks to massively ex...
Climate and weather conditions influence energy demand. as well as electricity generation, especiall...
The electricity sector is currently considered mainly on the emission side of the climate change equ...
Project CLIM2POWER is part of ERA4CS, an ERA-NET initiated by JPI Climate.Climate and weather condit...
Through the combustion of fossil fuels, humankind contributes to an increase in the concentration of...
Here we present the first assessment of climate change impacts on the temporal variability of the jo...
AbstractUK wind-power capacity is increasing and new transmission links are proposed with Norway, wh...
International audienceIndicators Wind capacity factors: based on three power curves representative o...
Climate change can strongly affect renewable energy production. The state of the art in projecting f...
Climate change can strongly affect renewable energy production. The state of the art in projecting f...
The impact of both climate change and climate variability on the supply of intermittent renewable en...
To mitigate climate change a renewable energy transition is needed. Existing power systems will need...
The high temporal variability of wind power generation represents a major challenge for the realizat...
The growing share of variable renewable energy increases the meteorological sensitivity of power sys...
To reach its goal of net greenhouse gas neutrality by 2050, the European Union seeks to massively ex...
Climate and weather conditions influence energy demand. as well as electricity generation, especiall...
The electricity sector is currently considered mainly on the emission side of the climate change equ...
Project CLIM2POWER is part of ERA4CS, an ERA-NET initiated by JPI Climate.Climate and weather condit...
Through the combustion of fossil fuels, humankind contributes to an increase in the concentration of...
Here we present the first assessment of climate change impacts on the temporal variability of the jo...
AbstractUK wind-power capacity is increasing and new transmission links are proposed with Norway, wh...
International audienceIndicators Wind capacity factors: based on three power curves representative o...
Climate change can strongly affect renewable energy production. The state of the art in projecting f...
Climate change can strongly affect renewable energy production. The state of the art in projecting f...