Recommendations on an integrated Europe–wide renewable energy grid
A new report makes recommendations on how to develop a fully integrated pan-European grid that can secure reliable electricity for the future while incorporating more renewable energy. The EU has set a target which states that a 20 per cent share of energy should come from renewable sources by 2020. Electricity systems will have to incorporate more renewable energy from a variety of sources including solar� wind biomass and tidal power. In addition energy generation is likely to be more distributed on both a small and a large scale. With a greater contribution of energy from renewable sources electricity will need to be transferred across Europe from sites of generation to areas of demand which could be long distances away.The variety of energy sources will create challenges for operators balancing supply and demand who are more used to dealing with supply from a small number of large power plants. The electricity grid will therefore need to become much more flexible to ensure supply and demand are matched making greater use of storage devices and management of demand using smart meters. The present grid cannot support this additional capacity; it is not fully integrated and there is no Europe-wide planning or coordination. The authors of the report make a number of recommendations to help Europe create a reliable grid. These fall under three categories:1) Planning and development of the grid2) The physical and market aspects of operating a European grid3.) Current and future technology choicesThe environmental impact costs and technical aspects of constructing overhead power lines running alternating current (AC) and High Voltage Direct Current (HVDC) transmission through underground cables need to be considered. These decisions are likely to be influenced by public opposition to the further development of overhead power lines. Improvements to telecommunications networks and measurement systems will enable exchange of information to manage congestion in real time.