2020 was a record year for the global wind power industry, but a new report published by GWEC warns that the world needs to install new wind power capacity three times faster over the next decade to achieve global climate targets.
- The global wind industry installed a record 93 GW of new capacity in 2020 – a 53% year-on-year increase, showing strong resilience in the face of COVID-19.
- Total global wind power capacity is now up to 743 GW, helping the world to avoid over 1.1 billion tonnes of CO2 annually – equivalent to the annual carbon emissions of South America.
- However, the world needs to be installing a minimum of 180 GW of new wind energy every single year to avoid the worst impacts of climate change, meaning that the industry and policymakers need to act fast to accelerate deployment.
- Governments across the world must take a ‘climate emergency’ approach to eliminate red tape and planning delays and expand grid infrastructure to further scale-up wind power at the pace required
- Wind power is a cornerstone of achieving net zero and powering a green recovery as a cost-competitive, resilient power source with the most decarbonisation potential per MW.
25 March 2021, Brussels – 2020 was the best year in history for the global wind industry with 93 GW of new capacity installed – a 53 per cent year-on-year increase – but a new report published by the Global Wind Energy Council (GWEC) warns that this growth is not sufficient to ensure the world achieves net zero by 2050. According to the Global Wind Report 2021, GWEC’s 16th annual flagship report, the world needs to be installing wind power three times faster over the next decade in order to stay on a net zero pathway and avoid the worst impacts of climate change.
Through technology innovations and economies of scale, the global wind power market has nearly quadrupled in size over the past decade and established itself as one of the most cost-competitive and resilient power sources across the world. In 2020, record growth was driven by a surge of installations in China and the US – the world’s two largest wind power markets – who together installed 75 per cent of the new installations in 2020 and account for over half of the world’s total wind power capacity.
Today, there is now 743 GW of wind power capacity worldwide, helping to avoid over 1.1 billion tonnes of CO2 globally – equivalent to the annual carbon emissions of South America.
Yet, as the clean energy technology with the most decarbonisation potential per MW, the report shows that the current rate of wind power deployment will not be enough to achieve carbon neutrality by the middle of this century, and urgent action must be taken by policymakers now to scale up wind power at the necessary pace.
According to the scenarios that have been established by international energy bodies such as IRENA and the IEA, the world needs to be installing a minimum of 180 GW of new wind energy every year to limit global warming to well below 2°C above pre-industrial levels, and will need to install up to 280 GW annually to maintain a pathway compliant with meeting net zero by 2050. This means that the industry and policymakers need to work collaboratively and act fast to accelerate deployment
GWEC is calling on policymakers to take a true ‘climate emergency’ approach to allow a faster ramp up including:
- Eliminating red tape and reforming administrative structures in order to speed up and streamline licensing and permitting for projects
- Carry out a massive increase in investments in grid, ports and other infrastructure needed to allow the ramp up in installations
- Re-vamp energy markets to ensure that they account for the true social costs of polluting fossil fuels and facilitate a rapid transition to a system based on renewable energy
Ben Backwell, CEO at GWEC said: “People and governments around the world are realising that we have a limited window to head off dangerous climate change. While many major economies have announced long-term net zero targets, we need to make sure that urgent and meaningful actions are taken now to make sure this ambition is matched with fast growing investment and installations of renewable power on the ground and in the water. It is really encouraging to see record growth in China and US last year, but now we need the rest of the world to step up to get us where we need to be.”
“Our current market forecasts show that 469 GW of new wind power capacity will be installed over the next five years. But we need to be installing at least 180 GW of new capacity every year through 2025 to ensure we remain on the right path to limit global warming well below 2°C – meaning we are currently on-track to be 86 GW short on average each year. And these installation levels will need to scale up to 280 GW beyond 2030 to deliver carbon neutrality by mid-century. Every year we fall short, the mountain to climb in the years ahead gets higher”, he added.
People and governments around the world are realising that we have a limited window to head off dangerous climate change. While many major economies have announced long-term net zero targets, we need to make sure that urgent and meaningful actions are taken now to make sure this ambition is matched with fast growing investment and installations of renewable power on the ground and in the water. It is really encouraging to see record growth in China and US last year, but now we need the rest of the world to step up to get us where we need to be. Ben Backwell, CEO, GWEC Tweet
Feng Zhao, Head of Market Intelligence and Strategy at GWEC commented: “The wind industry must work together with governments, communities, as well as other sectors such as solar, storage, and oil & gas to find solutions to accelerate the energy transition as efficiently as possible. Wind power both onshore and offshore, will play a crucial role in decarbonising not only electrons, but also molecules by driving the commercialisation of cost-competitive Power-to-X solutions. This will be a key element in achieving net zero in harder to abate sectors such as heavy industry and long-distance transport and enable the full decarbonisation of our society.”
“In every major institutional scenario for energy system transformation analysed in this report, the wind market must rapidly expand over the next decade. The wind industry must be clear that this growth will not happen spontaneously, and urgent policy interventions are required worldwide. Throughout the COVID-19 crisis, we saw how governments can quickly react to address a global crisis – this same urgency must now be applied to the climate crisis”, he added.
The wind industry must work together with governments, communities, as well as other sectors such as solar, storage, and oil & gas to find solutions to accelerate the energy transition as efficiently as possible. Wind power both onshore and offshore, will play a crucial role in decarbonising not only electrons, but also molecules by driving the commercialisation of cost-competitive Power-to-X solutions. This will be a key element in achieving net zero in harder to abate sectors such as heavy industry and long-distance transport and enable the full decarbonisation of our society. Feng Zhao, Head of Market Intelligence and Strategy, GWEC Tweet
Annex
Top 10 Onshore Wind Markets for New Capacity in 2020
- China – 48,940 MW
- US – 16,913 MW
- Brazil – 2,297 MW
- Norway – 1,532 MW
- Germany – 1,431 MW
- Spain – 1,400 MW
- France – 1,317 MW
- Turkey – 1,224 MW
- India – 1,119 MW
- Australia – 1,097 MW
Top 10 Onshore Wind Markets for Cumulative Capacity
- China – 278,324 MW
- US – 122,275 MW
- Germany – 55,122 MW
- India – 38,625 MW
- Spain – 27,238 MW
- France – 17,946 MW
- Brazil – 17,750 MW
- United Kingdom – 13,731 MW
- Canada – 13,578 MW
- Italy – 10,543 MW
Top 5 Offshore Wind Markets for New Capacity in 2020
- China – 3,060 MW
- Netherlands – 1,493 MW
- Belgium – 706 MW
- United Kingdom – 483 MW
- Germany – 237 MW
Top 5 Offshore Wind Markets for Cumulative Capacity
- United Kingdom – 10,206 MW
- China – 9,996 MW
- Germany – 7,728 MW
- Netherlands – 2,611 MW
- Belgium – 2,262 MW
Global Onshore Wind Power Outlook 2021-2025 by Region
2021 | 2022 | 2023 | 2024 | 2025 | |
Asia Pacific | 38.5 GW | 43.7 GW | 47.7 GW | 50.3 GW | 53.5 GW |
Europe | 15.9 GW | 14.1 GW | 15.6 GW | 14.9 GW | 16 GW |
Africa & the Middle East | 2 GW | 2.7 GW | 3.2 GW | 3.9 GW | 4.3 GW |
North America | 14.7 GW | 8.3 GW | 6.5 GW | 10.5 GW | 10.6 GW |
Latin America | 5.3 GW | 4.6 GW | 4.4 GW | 4 GW | 4 GW |
Total | 76.3 GW | 73.4 GW | 77.4 GW | 83.7 GW | 88.3 GW |
Global Offshore Wind Power Outlook 2021-2025 by Region
2021 | 2022 | 2023 | 2024 | 2025 | |
Asia Pacific | 8.3 GW | 4.5 GW | 5.5 GW | 7 GW | 10.1 GW |
Europe | 2.9 GW | 3.2 GW | 6.5 GW | 3.9 GW | 10.3 GW |
North America | 0 GW | 0 GW | 1.1 GW | 3.5 GW | 3.6 GW |
Total | 11.2 GW | 7.7 GW | 13.1 GW | 14.3 GW | 23.9 GW |
GWEC is a member-based organization that represents the entire wind energy sector. The members of GWEC represent over 1,500 companies, organizations and institutions in more than 80 countries, including manufacturers, developers, component suppliers, research institutes, national wind and renewables associations, electricity providers, finance and insurance companies.