Energy subsidy

This article is about financial support by governments for all forms of energy in general. For more specific details about coal, oil and gas, see Fossil fuel subsidies.

Energy subsidies are measures that keep prices for customers below market levels, or for suppliers above market levels, or reduce costs for customers and suppliers.[1][2] Energy subsidies may be direct cash transfers to suppliers, customers, or related bodies, as well as indirect support mechanisms, such as tax exemptions and rebates, price controls, trade restrictions, and limits on market access.

During FY 2016–22, most US federal subsidies were for renewable energy producers (primarily biofuels, wind, and solar), low-income households, and energy-efficiency improvements. During FY 2016–22, nearly half (46%) of federal energy subsidies were associated with renewable energy, and 35% were associated with energy end uses. Federal support for renewable energy of all types more than doubled, from $7.4 billion in FY 2016 to $15.6 billion in FY 2022.[3]

The International Renewable Energy Agency tracked some $634 billion in energy-sector subsidies in 2020, and found that around 70% were fossil fuel subsidies. About 20% went to renewable power generation, 6% to biofuels and just over 3% to nuclear.[4]

Overview of all sources of energy

If governments choose to subsidize one particular source of energy more than another, that choice can impact the environment.[5][6][7] That distinguishing factor informs the below discussion on all energy subsidies of all sources of energy in general.

Main arguments for energy subsidies are:

  • Security of supply – subsidies are used to ensure adequate domestic supply by supporting indigenous fuel production in order to reduce import dependency, or supporting overseas activities of national energy companies, or to secure the electricity grid.[8]
  • Environmental and health improvement – subsidies are used to improve health by reducing air pollution, and to fulfill international climate pledges.[9] For example the IEA says the purchase price of heat pumps should be subsidized.[10]
  • Economic benefits – subsidies in the form of reduced prices are used to stimulate particular economic sectors or segments of the population, e.g. alleviating poverty and increasing access to energy in developing countries.[citation needed] With regards to fossil fuel prices in particular, Ian Parry, the lead author of a 2021 IMF report said, "Some countries are reluctant to raise energy prices because they think it will harm the poor. But holding down fossil fuel prices is a highly inefficient way to help the poor, because most of the benefits accrue to wealthier households. It would be better to target resources towards helping poor and vulnerable people directly."[6][7]
  • Employment and social benefits – subsidies are used to maintain employment, especially in periods of economic transition.[11][better source needed] In 2021, with regards to fossil fuel prices in particular, Ipek Gençsü, at the Overseas Development Institute, said: "[Subsidy reform] requires support for vulnerable consumers who will be impacted by rising costs, as well for workers in industries which simply have to shut down. It also requires information campaigns, showing how the savings will be redistributed to society in the form of healthcare, education and other social services. Many people oppose subsidy reform because they see it solely as governments taking something away, and not giving back."[6]

Main arguments against energy subsidies are:

  • Some energy subsidies, such as the fossil fuel subsidies (oil, coal, and gas subsidies), counter the goal of sustainable development, as they may lead to higher consumption and waste, exacerbating the harmful effects of energy use on the environment, create a heavy burden on government finances and weaken the potential for economies to grow, undermine private and public investment in the energy sector.[12] Also, most benefits from fossil fuel subsidies in developing countries go to the richest 20% of households.[13]
  • Impede the expansion of distribution networks and the development of more environmentally benign energy technologies, and do not always help the people that need them most.[12]
  • The study conducted by the World Bank finds that subsidies to the large commercial businesses that dominate the energy sector are not justified. However, under some circumstances it is reasonable to use subsidies to promote access to energy for the poorest households in developing countries. Energy subsidies should encourage access to the modern energy sources, not to cover operating costs of companies.[14] The study conducted by the World Resources Institute finds that energy subsidies often go to capital intensive projects at the expense of smaller or distributed alternatives.[15]

Types of energy subsidies are below. ("Fossil-fuel subsidies generally take two forms. Production subsidies...[and]...consumption subsidies."[4]):

  • Direct financial transfers – grants to suppliers; grants to customers; low-interest or preferential loans to suppliers.
  • Preferential tax treatments – rebates or exemption on royalties, duties, supplier levies and tariffs; tax credit; accelerated depreciation allowances on energy supply equipment.
  • Trade restrictions – quota, technical restrictions and trade embargoes.
  • Energy-related services provided by government at less than full cost – direct investment in energy infrastructure; public research and development.
  • Regulation of the energy sector – demand guarantees and mandated deployment rates; price controls; market-access restrictions; preferential planning consent and controls over access to resources.
  • Failure to impose external costs – environmental externality costs; energy security risks and price volatility costs.[12]
  • Depletion Allowance – allows a deduction from gross income of up to ~27% for the depletion of exhaustible resources (oil, gas, minerals).

Overall, energy subsidies require coordination and integrated implementation, especially in light of globalization and increased interconnectedness of energy policies, thus their regulation at the World Trade Organization is often seen as necessary.[16][17]

Support for new technology

See also: Feed-in tariff

Early support of solar power by the United States and Germany greatly helped renewable energy commercialization to reduce greenhouse gas emissions worldwide, but may not have helped local manufacturing.[18] Support for nuclear fusion continues, although it is not expected to be commercially viable in time to contribute to countries net zero targets.[19] Energy storage research is also supported.[20]

Fossil fuel subsidies

This section is an excerpt from Fossil fuel subsidies.[edit]
Fossil-fuel subsidies per capita, 2019. Fossil-fuel pre-tax subsidies per capita are measured in constant US dollars.
Fossil-fuel subsidies as a share of GDP, 2019. Fossil-fuel pre-tax subsidies are given as a share of total gross domestic product.

Fossil fuel subsidies are energy subsidies on fossil fuels, and in 2023 totalled over 1 trillion dollars. They may be tax breaks on consumption, such as a lower sales tax on natural gas for residential heating; or subsidies on production, such as tax breaks on exploration for oil. Or they may be free or cheap negative externalities; such as air pollution or climate change due to burning gasoline, diesel and jet fuel. Some fossil fuel subsidies are via electricity generation, such as subsidies for coal-fired power stations.

Eliminating fossil fuel subsidies would reduce the health risks of air pollution,[21] and would greatly reduce global carbon emissions thus helping to limit climate change.[22] As of 2021, policy researchers estimate that substantially more money is spent on fossil fuel subsidies than on environmentally harmful agricultural subsidies or environmentally harmful water subsidies.[23] The International Energy Agency says: "High fossil fuel prices hit the poor hardest, but subsidies are rarely well-targeted to protect vulnerable groups and tend to benefit better-off segments of the population."[24]

Despite the G20 countries having pledged to phase-out inefficient fossil fuel subsidies,[25] as of 2023 they continue because of voter demand,[26][27] or for energy security.[28] Global fossil fuel consumption subsidies in 2022 have been estimated at one trillion dollars;[24] although they vary each year depending on oil prices, they are consistently hundreds of billions of dollars.[29]

See also

References

  1. ^ Timperley, Jocelyn (October 20, 2021). "Why fossil fuel subsidies are so hard to kill". Nature. Retrieved October 26, 2021. "Fossil-fuel subsidies generally take two forms. Production subsidies...[and]...Consumption subsidies...
  2. ^ OECD, 1998
  3. ^ Data source: U.S. Energy Information Administration, Federal Financial Interventions and Subsidies in Energy in Fiscal Years 2016–2022, Table 1 and Table A3, DOE, Department of Energy.
  4. ^ a b Timperley, Jocelyn (October 20, 2021). "Why fossil fuel subsidies are so hard to kill". Nature. Retrieved October 26, 2021.
  5. ^ Harvey, Fiona (July 15, 2020). "Governments put 'green recovery' on the backburner". The Guardian. Retrieved October 19, 2021.
  6. ^ a b c Carrington, Damian (October 6, 2021). "Fossil fuel industry gets subsidies of $11m a minute, IMF finds". The Guardian. Retrieved October 19, 2021.
  7. ^ a b Parry, Ian; Black, Simon; Vernon, Nate (September 24, 2021). "Still Not Getting Energy Prices Right: A Global and Country Update of Fossil Fuel Subsidies". International Monetary Fund. Retrieved October 19, 2021.
  8. ^ "Department of Energy Announces $10M in Funding to Cooperative and Municipal Utilities to Secure the Energy Sector's Industrial Control Systems". Energy.gov. Retrieved March 1, 2022.
  9. ^ Hittinger, Eric; Williams, Eric; Miao, Qing; Tibebu, Tiruwork B. (November 21, 2022). "How to design clean energy subsidies that work – without wasting money on free riders". The Conversation. Retrieved November 24, 2022.
  10. ^ https://www.weforum.org/agenda/2023/09/charts-show-potential-heat-pumps/ [bare URL]
  11. ^ "Energy subsidies in the European Union: A brief overview. Technical report No 1/2004" (PDF). European Environmental Agency. 2004. Archived from the original on March 14, 2012. Retrieved April 11, 2012. {{cite journal}}: Cite journal requires |journal= (help)
  12. ^ a b c United Nations Environment Programme, Division of Technology, Industry and Economics. (2002). Reforming energy subsidies (PDF). IEA/UNEP. ISBN 978-92-807-2208-6. Archived (PDF) from the original on March 21, 2007. Retrieved March 9, 2008.{{cite book}}: CS1 maint: multiple names: authors list (link)
  13. ^ Whitley, Shelagh. "Time to change the game: Fossil fuel subsidies and climate". Overseas Development Institute. Archived from the original on January 3, 2014. Retrieved January 3, 2014.
  14. ^ Douglas F. Barnes; Jonathan Halpern (2000). "The role of energy subsidies" (PDF). Energy and Development Report: 60–66. Archived (PDF) from the original on October 16, 2008. Retrieved March 9, 2008.
  15. ^ Jonathan Pershing; Jim Mackenzie (March 2004). "Removing Subsidies. Leveling the Playing Field for Renewable Energy Technologies. Thematic Background Paper" (PDF). Secretariat of the International Conference for Renewable Energies. Archived from the original (PDF) on April 6, 2004. Retrieved March 9, 2008. {{cite journal}}: Cite journal requires |journal= (help)
  16. ^ Farah, Paolo Davide; Cima, Elena (2015). "World Trade Organization, Renewable Energy Subsidies and the Case of Feed-In Tariffs: Time for Reform Toward Sustainable Development?". Georgetown International Environmental Law Review (GIELR). 27 (1). SSRN 2704398. and Farah, Paolo Davide; Cima, Elena (December 15, 2015). "WTO and Renewable Energy: Lessons from the Case Law". 49 JOURNAL OF WORLD TRADE 6, Kluwer Law International. SSRN 2704453.
  17. ^ Farah, Paolo Davide and Cima, Elena, WTO and Renewable Energy: Lessons from the Case Law (December 15, 2015). 49 JOURNAL OF WORLD TRADE 6, Kluwer Law International, ISSN 1011-6702, December 2015, pp. 1103 – 1116. Available at SSRN: http://ssrn.com/abstract=2704453
  18. ^ "Solar power in Germany – output, business & perspectives". Clean Energy Wire. September 21, 2018. Retrieved February 28, 2022.
  19. ^ "Major breakthrough on nuclear fusion energy". BBC News. February 9, 2022. Retrieved February 28, 2022.
  20. ^ "Why the EU supports energy storage research and innovation".
  21. ^ "Local Environmental Externalities due to Energy Price Subsidies: A Focus on Air Pollution and Health" (PDF). World Bank.
  22. ^ "Fossil fuel subsidies: If we want to reduce greenhouse gas emissions we should not pay people to burn fossil-fuels". Our World in Data. Retrieved November 4, 2021.
  23. ^ "Protecting Nature by Reforming Environmentally Harmful Subsidies: The Role of Business | Earth Track". www.earthtrack.net. Retrieved March 7, 2022.
  24. ^ a b "Fossil Fuels Consumption Subsidies 2022 – Analysis". IEA. February 16, 2023. Retrieved February 16, 2023.
  25. ^ "Update on recent progress in reform of inefficient fossil-fuel subsidies that encourage wasteful consumption" (PDF). 2021.
  26. ^ George, Johannes Urpelainen and Elisha (July 14, 2021). "Reforming global fossil fuel subsidies: How the United States can restart international cooperation". Brookings. Retrieved February 26, 2022.
  27. ^ Martinez-Alvarez, Cesar B.; Hazlett, Chad; Mahdavi, Paasha; Ross, Michael L. (November 22, 2022). "Political leadership has limited impact on fossil fuel taxes and subsidies". Proceedings of the National Academy of Sciences. 119 (47): e2208024119. Bibcode:2022PNAS..11908024M. doi:10.1073/pnas.2208024119. ISSN 0027-8424. PMC 9704748. PMID 36375060.
  28. ^ Brower, Derek; Wilson, Tom; Giles, Chris (February 25, 2022). "The new energy shock: Putin, Ukraine and the global economy". Financial Times. Retrieved February 26, 2022.
  29. ^ "Fossil Fuel Subsidies & Finance". Oil Change International. Retrieved June 2, 2022.

Bibliography

  • Difiglio, Prof. Carmine; Güray, Bora Şekip; Merdan, Ersin (November 2020). Turkey Energy Outlook. iicec.sabanciuniv.edu (Report). Sabanci University Istanbul International Center for Energy and Climate (IICEC). ISBN 978-605-70031-9-5.