![]() ![]() The 2 GW extra capacity is needed to accommodate the loss associated with electric energy storage, which we need for when the wind is not blowing.14 GW of offshore wind with a capacity factor of 50% leaves 7 GW gross average power, 2 GW more than Denmark’s average power load.In order to appreciate just how much more electric energy capacity is needed to meet the future need for PtX fuels, we can use Denmark as an example. Sectors like transport and industry can only partly convert to electric power and will need Power-to-X fuels from renewables. The world is going to need much more green powerĪ full transition to green energy will require the supply of a lot more electricity than today’s global demand. There is just not sufficient shallow-water area available.įor countries lacking the space for solar PV and not having large, shallow water areas for conventional, bottom-fixed offshore wind, floating offshore wind will often be the ideal means for the green transition. Freed from the geographical constraints of shallow water site availability, floating wind opens new paths towards a cost-effective green energy transition in many regions.Īpart from the North Sea and shallow water coastlines off China and the Eastern USA, most of the world’s population centers cannot be served by conventional bottom-fixed offshore wind. Floating foundations enable offshore wind power to serve important new markets. ![]()
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