Global renewable energy capacity additions in 2020 beat earlier estimates and all previous records despite the economic slowdown that resulted from the COVID-19 pandemic. According to data released today by the International Renewable Energy Agency (IRENA) the world added more than 260 gigawatts (GW) of renewable energy capacity last year, exceeding expansion in 2019 by close to 50 per cent.
IRENA’s annual Renewable Capacity Statistics 2021 shows that renewable energy’s share of all new generating capacity rose considerably for the second year in a row. More than 80 per cent of all new electricity capacity added last year was renewable, with solar and wind accounting for 91 per cent of new renewables.
Renewables’ rising share of the total is partly attributable to net decommissioning of fossil fuel power generation in Europe, North America and for the first time across Eurasia (Armenia, Azerbaijan, Georgia, Russian Federation and Turkey). Total fossil fuel additions fell to 60 GW in 2020 from 64 GW the previous year highlighting a continued downward trend of fossil fuel expansion.
“These numbers tell a remarkable story of resilience and hope. Despite the challenges and the uncertainty of 2020, renewable energy emerged as a source of undeniable optimism for a better, more equitable, resilient, clean and just future,” said IRENA Director-General Francesco La Camera. “The great reset offered a moment of reflection and chance to align our trajectory with the path to inclusive prosperity, and there are signs we are grasping it.
“Despite the difficult period, as we predicted, 2020 marks the start of the decade of renewables,” continued Mr. La Camera. “Costs are falling, clean tech markets are growing and never before have the benefits of the energy transition been so clear. This trend is unstoppable, but as the review of our World Energy Transitions Outlook highlights, there is a huge amount to be done. Our 1.5 degree outlook shows significant planned energy investments must be redirected to support the transition if we are to achieve 2050 goals. In this critical decade of action, the international community must look to this trend as a source of inspiration to go further,” he concluded.
The 10.3 per cent rise in installed capacity represents expansion that beats long-term trends of more modest growth year on year. At the end of 2020, global renewable generation capacity amounted to 2 799 GW with hydropower still accounting for the largest share (1 211 GW) although solar and wind are catching up fast. The two variable sources of renewables dominated capacity expansion in 2020 with 127 GW and 111 GW of new installations for solar and wind respectively.
China and the United States of America were the two outstanding growth markets from 2020. China, already the world’s largest market for renewables added 136 GW last year with the bulk coming from 72 GW of wind and 49 GW of solar. The United States of America installed 29 GW of renewables last year, nearly 80 per cent more than in 2019, including 15 GW of solar and around 14 GW of wind. Africa continued to expand steadily with an increase of 2.6 GW, slightly more than in 2019, while Oceania remained the fastest growing region (+18.4%), although its share of global capacity is small and almost all expansion occurred in Australia.
Highlights by technology:
Hydropower: Growth in hydro recovered in 2020, with the commissioning of several large projects delayed in 2019. China added 12 GW of capacity, followed by Turkey with 2.5 GW.
Wind energy: Wind expansion almost doubled in 2020 compared to 2019 (111 GW compared to 58 GW last year). China added 72 GW of new capacity, followed by the United States of America (14 GW). Ten other countries increased wind capacity by more than 1 GW in 2020. Offshore wind increased to reach around 5% of total wind capacity in 2020.
Solar energy: Total solar capacity has now reached about the same level as wind capacity thanks largely to expansion in Asia (78 GW) in 2020. Major capacity increases in China (49 GW) and Viet Nam (11 GW). Japan also added over 5 GW and India and Republic of Korea both expanded solar capacity by more than 4 GW. The United States of America added 15 GW.
Bioenergy: Net capacity expansion fell by half in 2020 (2.5 GW compared to 6.4 GW in 2019). Bioenergy capacity in China expanded by over 2 GW. Europe the only other region with significant expansion in 2020, adding 1.2 GW of bioenergy capacity, a similar to 2019.
Geothermal energy: Very little capacity added in 2020. Turkey increased capacity by 99 MW and small expansions occurred in New Zealand, the United States of America and Italy.
Off-grid electricity: Off-grid capacity grew by 365 MW in 2020 (2%) to reach 10.6 GW. Solar expanded by 250 MW to reach 4.3 GW and hydro remained almost unchanged at about 1.8 GW.
Hydrogen in North-Western Europe: A vision towards 2030
North-West Europe has a well-developed hydrogen industry that could be at the edge of an unprecedented transformation should governments keep raising their ambitions for reducing greenhouse gas emissions, according to a new joint report by the International Energy Agency (IEA) and the Clingendael International Energy Programme (CIEP).
The report, Hydrogen in North-Western Europe: A vision towards 2030, explores hydrogen developments, policies and potential for collaboration in the region. It was commissioned to inform discussions among governments from North-West Europe about the potential development of a regional hydrogen market. This intergovernmental dialogue was established at the Clean Energy Ministerial Hydrogen Initiative in 2020.
The report finds that the current policy landscape provides some momentum for the transformation of the hydrogen industry in North-West Europe towards 2030, but that it is insufficient to fully tap into the region’s potential to develop a large-scale low-carbon hydrogen value chain. More ambitious policies in line with the targets defined by the EU Green Deal or the UK Climate Change Act would drive a faster transformation.
If such a supportive policy framework were to be adopted, hydrogen demand in the region could grow by a third and low-carbon hydrogen could meet more than half of dedicated production, up from about 10% today, according to the report.
North-West European countries have already made significant progress developing their vision for the role hydrogen should play in their long-term energy strategies. These countries now face the challenge of moving beyond national discussions to establish a regional dialogue, an indispensable condition to develop the fully integrated hydrogen market the region needs.
With the aim of informing this dialogue, the report identifies four priorities that should be addressed:
- Build on the large unused potential to co-operate on hydrogen in the north-western European region.
- Identify what is needed to develop an integrated regional market.
- Develop supporting schemes with a holistic view of the hydrogen value chain.
- Identify the best opportunities to simultaneously decarbonise current hydrogen production and deploy additional low-carbon supply.
Seven Countries Account for Two-Thirds of Global Gas Flaring
In an unprecedented year for the oil and gas industry, oil production declined by 8% in 2020, while global gas flaring reduced by 5%, according to satellite data compiled by the World Bank’s Global Gas Flaring Reduction Partnership (GGFR). Oil production dropped from 82 million barrels per day (b/d) in 2019 to 76 million b/d in 2020, as global gas flaring reduced from 150 billion cubic meters (bcm) in 2019 to 142 bcm in 2020. Nonetheless, the world still flared enough gas to power sub-Saharan Africa. The United States accounted for 70% of the global decline, with gas flaring falling by 32% from 2019 to 2020, due to an 8% drop in oil production, combined with new infrastructure to use gas that would otherwise be flared.
Gas flaring satellite data from 2020 reveals that Russia, Iraq, Iran, the United States, Algeria, Venezuela and Nigeria remain the top seven gas flaring countries for nine years running, since the first satellite was launched in 2012. These seven countries produce 40% of the world’s oil each year, but account for roughly two-thirds (65%) of global gas flaring. This trend is indicative of ongoing, though differing, challenges facing these countries. For example, the United States has thousands of individual flare sites, difficult to connect to a market, while a few high flaring oil fields in East Siberia in the Russian Federation are extremely remote, lacking the infrastructure to capture and transport the associated gas.
Gas flaring, the burning of natural gas associated with oil extraction, takes place due to a range of issues, from market and economic constraints, to a lack of appropriate regulation and political will. The practice results in a range of pollutants released into the atmosphere, including carbon dioxide, methane and black carbon (soot). The methane emissions from gas flaring contribute significantly to global warming in the short to medium term, because methane is over 80 times more powerful than carbon dioxide on a 20-year basis.
“In the wake of the COVID-19 pandemic, oil-dependent developing countries are feeling the pinch, with constrained revenues and budgets. But with gas flaring still releasing over 400 million tons of carbon dioxide equivalent emissions each year, now is the time for action. We must forge ahead with plans to dramatically reduce the direct emissions of the oil and gas sector, including from gas flaring,” said Demetrios Papathanasiou, Global Director for the Energy and Extractives Global Practice at the World Bank.
The World Bank’s GGFR is a trust fund and partnership of governments, oil companies, and multilateral organizations working to end routine gas flaring at oil production sites around the world. GGFR, in partnership with the U.S. National Oceanic and Atmospheric Administration (NOAA) and the Colorado School of Mines, has developed global gas flaring estimates based upon observations from two satellites, launched in 2012 and 2017. The advanced sensors of these satellites detect the heat emitted by gas flares as infrared emissions at global upstream oil and gas facilities.
“Awareness of gas flaring as a critical climate and resource management issue is greater than ever before. Almost 80 governments and oil companies have committed to Zero Routine Flaring within the next decade and some are also joining our global partnership, which is a very positive development. Gas flaring reduction projects require significant investment and take several years to produce results. In the lead-up to the next UN Climate Change conference in Glasgow, we continue to call upon oil-producing country governments and companies to place gas flaring reduction at the center of their climate action plans. To save the world from millions of tons of emissions a year, this 160-year-old industry practice must now come to an end.” said Zubin Bamji, Program Manager of the World Bank’s GGFR Partnership Trust Fund.
IEA supports Indonesia’s plans for deploying renewable energy
The IEA is carrying out a large work programme on power system enhancement with the Government of Indonesia to help it modernise the country’s electricity sector, including support for overcoming challenges inherent in integrating variable renewables like wind and solar PV.
As part of the work programme, the IEA hosted a series of webinars in early 2021 where Indonesia’s Ministry of Energy and Mineral Resources and national power utility PLN could learn from other countries’ experiences of integrating and setting targets for variable renewable energy.
An introductory session on the principles of integrating renewable energy was held ahead of the country specific sessions. In this session, the IEA presented its framework for renewable integration phases to the Ministry and PLN, highlighting the different challenges often faced during renewable integration as well as what flexibility options can be deployed to tackle these challenges.
In the first country session, IEA presented the main findings of the Thailand flexibility study that the Agency carried out in cooperation with EGAT, the Thai electricity utility. The study shows that Thailand has the technical capability to integrate larger shares of variable renewables, but that the lack of commercial flexibility is a major barrier for operating the power system in a more flexible way and thus is the main obstacle for integrating large amounts of renewables.
In the second country session, the Danish Energy Agency presented its work programme with the Government of Viet Nam. The sessions focused on important aspects for integration of renewables, such as the assessing the needs and implications of reserves and forecasting. The session also included a discussion on the main learning points from the boom in rooftop solar that Viet Nam has experienced in 2020.
The third and last country session was on India. The IEA presented both national as well as state-level modelling in order to show some of the contextual differences between national models and models that focus on specific geographical regions. In India, the spot market accounts for only 10% of electricity generation, which shows that India, like Thailand, has some issues with commercial flexibility. The discussion also covered India’s level of dependency on physical power purchase agreements and its impacts on the flexibility of the power system.
All sessions were held behind closed doors to allow for an open discussion between the participating organisations on the issues of renewable integration and possible ways of addressing barriers. The IEA will continue the work with the Indonesian Ministry and PLN on this topic in order to facilitate a path towards a clean, affordable, secure and modern power sector in Indonesia.
This work in Indonesia is undertaken within the Clean Energy Transitions in Emerging Economies programme.
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