$20bn To Flow Into European Offshore Substations: Rystad Energy By Saur News Bureau/ Updated On Tue, Jun 18th, 2024 $20bn To Flow Into European Offshore Substations: Report A new report from Rystad Energy projects that 137 substations will be installed offshore continental Europe this decade, requiring $20 billion in total investment. The team said that installations are gathering pace worldwide leading to the need for reliable, accessible infrastructure to bring the generated power onshore and into the electricity grid. “Demand for offshore substations is booming, especially in Europe. Rystad Energy research and modeling shows that 137 substations will be installed offshore continental Europe this decade, requiring $20 billion in total investment. Over 120 of these facilities will be installed between 2024 and 2030 at a cost of around $18 billion. As such, annual spending on these substations will increase steadily through 2030, rising from an average of $1.4 billion per year from 2015 to 2023, to a new high of $8.4 billion in 2030,” the report said. Substations are crucial in this industry as they collect power generated by wind turbines, increase the operating voltage and transmitting the power to shore. The primary electrical system of such wind technology substation includes switchgears, transformers/converters, a reactive power compensation system and an earthing system. These substations are particularly beneficial for projects over 200 megawatts (MW) in capacity and located more than 15 kilometers (km) from shore, as they help minimize power transmission losses. They are also valuable for other energy initiatives, such as electrifying offshore oil and gas production platforms. Offshore substation additions. Source; Rystad Energy Report “The surge in substation developments is being fueled by the increased scale of offshore wind projects and their distance from shore, with projects exceeding 1 gigawatt (GW) of capacity requiring multiple substations. Many European countries have set ambitious offshore wind installation goals which are set to transform the continent into a hub for substation activity. Europe is set to install eight new offshore substations in 2024 alone, double last year’s number. This year, new such offshore substations will be confined to wind projects located within 50 kms of the coast. However, in the latter half of this decade we expect a notable uptick in offshore wind installations beyond the 50-km mark, driving more need for offshore substations,” the Rystad report added. “We will see a substantial increase in spending in the offshore substation market this decade. This is linked to growing installed capacity in Europe and will be further amplified when floating wind technology takes off. Floating wind turbines are situated far from shore, meaning we could see the first floating substations in the early 2030s,” says Petra Manuel, senior wind analyst at Rystad Energy. Offshore substation capex in Europe. Source: Rystad Energy These substations can be divided into two sub-components: the topside, which contains the main electrical power system, auxiliary systems and the topside housing; and the foundation, which holds the weight of the topside structure. Jackets – fixed to the seabed with piles at each leg – have been the preferred foundation concept for most offshore substations since they can support wider and larger structures. However, some projects have also used monopiles driven directly into the seabed. An offshore substation’s topside can be large in terms of length and width and is much heavier than a wind turbine. Of the nearly 100 of these substations installed in Europe between 2014 and 2016, jackets held an almost a 70% share, with monopiles accounting for less than a quarter. Some of the substation foundation concepts to be used in 2025 and 2026 are not yet known, so we have noted them as unspecified in our research. Tags: offshore wind, Rystad Energy Researh