(www.MaritimeCyprus.com) The International Energy Agency (IEA) issued its Offshore Wind Outlook 2019, finding that offshore wind power will expand impressively over the next two decades, boosting efforts to decarbonize energy systems and reduce air pollution as it becomes a growing part of electricity supply. The report finds that global offshore wind capacity may increase 15-fold and attract around US$1 Trillion of cumulative investment by 2040. This is driven by falling costs, supportive government policies and some remarkable technological progress, such as larger turbines and floating foundations.
Offshore wind is a rapidly maturing renewable energy technology that is poised to play an important role in future energy systems. In 2018, offshore wind provided a tiny fraction of global electricity supply, but it is set to expand strongly in the coming decades as mentioned, into a US$1 Trillion business. Turbines are growing in size and in terms of the power capacity they can provide, which in turn is delivering major performance and cost improvements for offshore wind farms.
This new World Energy Outlook special report provides the most comprehensive analysis to date of the global outlook for offshore wind, its contributions to electricity systems and its role in clean energy transitions. The report is a deep dive into offshore wind, giving a snapshot of where the market, technology and policies stand today – and mapping out how they may develop over the next two decades. It draws on a state-of-the-art geospatial analysis of the world’s offshore wind resources and explores the implications of the technology’s growth for global environmental goals and energy security.
The IEA finds that global offshore wind capacity may increase 15-fold. This is driven by falling costs, supportive government policies and some remarkable technological progress, such as larger turbines and floating foundations. That’s just the start – the IEA report finds that offshore wind technology has the potential to grow far more strongly with stepped-up support from policy makers.
Europe has pioneered offshore wind technology, and the region is positioned to be the powerhouse of its future development. Today, offshore wind capacity in the European Union stands at almost 20 gigawatts. Under current policy settings, that is set to rise to nearly 130 gigawatts by 2040. However, if the European Union reaches its carbon-neutrality aims, offshore wind capacity would jump to around 180 gigawatts by 2040 and become the region’s largest single source of electricity.
An even more ambitious vision – in which policies drive a big increase in demand for clean hydrogen produced by offshore wind – could push European offshore wind capacity dramatically higher.
China is also set to play a major role in offshore wind’s long-term growth, driven by efforts to reduce air pollution. The technology is particularly attractive in China because offshore wind farms can be built near the major population centres spread around the east and south of the country. By around 2025, China is likely to have the largest offshore wind fleet of any country, overtaking the United Kingdom. China’s offshore wind capacity is set to rise from 4 gigawatts today to 110 gigawatts by 2040. Policies designed to meet global sustainable energy goals could push that even higher to above 170 gigawatts.
The United States has good offshore wind resources in the northeast of the country and near demand centers along the densely populated east coast, offering a way to help diversify the country’s power mix. Floating foundations would expand the possibilities for harnessing wind resources off the west coast.
“In the past decade, two major areas of technological innovation have been game-changers in the energy system by substantially driving down costs: the shale revolution and the rise of solar PV,” said Dr Fatih Birol, the IEA’s Executive Director. “And offshore wind has the potential to join their ranks in terms of steep cost reduction.”
The huge promise of offshore wind is underscored by the development of floating turbines that could be deployed further out at sea. In theory, they could enable offshore wind to meet the entire electricity demand of several key electricity markets several times over, including Europe, the United States and Japan.
“Offshore wind currently provides just 0.3% of global power generation, but its potential is vast,” Dr Birol said. “More and more of that potential is coming within reach, but much work remains to be done by governments and industry for it to become a mainstay of clean energy transitions.”
Governments and regulators can clear the path ahead for offshore wind’s development by providing the long-term vision that will encourage industry and investors to undertake the major investments required to develop offshore wind projects and link them to power grids on land. That includes careful market design, ensuring low-cost financing and regulations that recognise that the development of onshore grid infrastructure is essential to the efficient integration of power production from offshore wind.
Industry needs to continue the rapid development of the technology so that wind turbines keep growing in size and power capacity, which in turn delivers the major performance and cost reductions that enables offshore wind to become more competitive with gas-fired power and onshore wind.
What’s more, huge business opportunities exist for oil and gas sector companies to draw on their offshore expertise. An estimated 40% of the lifetime costs of an offshore wind project, including construction and maintenance, have significant synergies with the offshore oil and gas sector. That translates into a market opportunity of US$ 400 billion or more in Europe and China over the next two decades.
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