Energy subsidies are measures that keep prices for consumers below market levels or for producers above market levels, or reduce costs for consumers and producers.  Energy subsidies may be direct cash transfers to producers, consumers, or related bodies, as well as indirect support mechanisms, such as tax exemptions and rebates, price controls, trade restrictions, and limits on market access. They may also include energy conservation subsidies.  The development of today's major modern energy industries have all relied on substantial subsidy support.
- 1 Overview
- 2 Impact of fossil fuel subsidies
- 3 Impact of renewable energy subsidies
- 4 IEA position on subsidies
- 5 Subsidies by country
- 6 See also
- 7 References
- 8 External links
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.
- Environmental improvement – subsidies are used to reduce pollution, including different emissions, and to fulfill international obligations (e.g. Kyoto Protocol).
- 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.
- Employment and social benefits – subsidies are used to maintain employment, especially in periods of economic transition. 
Main arguments against energy subsidies are:
- Some energy 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.  Also, most benefits from fossil fuel subsidies in developing countries go to the richest 20% of households. 
- 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. 
- 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.  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. 
Types of energy subsidies are:
- Direct financial transfers – grants to producers; grants to consumers; low-interest or preferential loans to producers.
- Preferential tax treatments – rebates or exemption on royalties, duties, producer 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. 
- 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.  
The degree and impact of fossil fuel studies is extensively studied. Because fossil fuels are a leading contributor to climate change through greenhouse gases, fossil fuel subsidies increase emissions and exacerbate climate change. The OECD’s inventory in 2015 determined an overall value of $160bn-$200bn per year between 2010 and 2014 relying on the WTO's 1994 definition of fossil fuel subsidies as “financial contribution by a government” which “confers a benefit” on its recipient. This is the only internationally agreed definition of the term.  
A 2016 IMF working paper (not representing the views of the IMF) estimated that global fossil fuel subsidies were $5.3 trillion in 2015, which represents 6.5% of global GDP.  The study found that "China was the biggest subsidizer in 2013 ($1.8 trillion), followed by the United States ($0.6 trillion), and Russia, the European Union, and India (each with about $0.3 trillion)."  The authors estimated that the elimination of "subsidies would have reduced global carbon emissions in 2013 by 21% and fossil fuel air pollution deaths 55%, while raising revenue of 4%, and social welfare by 2.2%, of global GDP."  This study is controversial for its radical break with previous definitions of subsidies by redefining externalities as a subsidy, as well as an excessively broad application of social costs as oil externalities. The externalities accounted for are broad enough that oil companies not paying for automobile accidents is considered a subsidy.  
According to the International Energy Agency, the elimination of fossil fuel subsidies worldwide would be one of the most effective ways of reducing greenhouse gases and battling global warming.  In May 2016, the G7 nations set for the first time a deadline for ending most fossil fuel subsidies; saying government support for coal, oil and gas should end by 2025. 
According to the OECD, subsidies supporting fossil fuels, particularly coal and oil, represent greater threats to the environment than subsidies to renewable energy. Subsidies to nuclear power contribute to unique environmental and safety issues, related mostly to the risk of high-level environmental damage, although nuclear power contributes positively to the environment in the areas of air pollution and climate change.  According to Fatih Birol, Chief Economist at the International Energy Agency without a phasing out of fossil fuel subsidies, countries will not reach their climate targets. 
A 2010 study by Global Subsidies Initiative compared global relative subsidies of different energy sources. Results show that fossil fuels receive 0.8 US cents per kWh of energy they produce (although it should be noted that the estimate of fossil fuel subsidies applies only to consumer subsidies and only within non-OECD countries), nuclear energy receives 1.7 cents / kWh, renewable energy (excluding hydroelectricity) receives 5.0 cents / kWh and bio-fuels receive 5.1 cents / kWh in subsidies. 
In 2011, IEA chief economist Faith Birol said the current $409 billion equivalent of fossil fuel subsidies (in non-OECD countries) are encouraging a wasteful use of energy, and that the cuts in subsidies is the biggest policy item that would help renewable energies get more market share and reduce CO2 emissions. 
Global renewable energy subsidies reached $88 billion in 2011.  According to the OECD, subsidies to renewable energy are generally considered more environmentally beneficial than fossil fuel subsidies, although the full range of environmental effects should be taken into account. 
According to International Energy Agency (IEA) (2011) energy subsidies artificially lower the price of energy paid by consumers, raise the price received by producers or lower the cost of production. "Fossil fuels subsidies costs generally outweigh the benefits. Subsidies to renewables and low-carbon energy technologies can bring long-term economic and environmental benefits".  In November 2011, an IEA report entitled Deploying Renewables 2011 said "subsidies in green energy technologies that were not yet competitive are justified in order to give an incentive to investing into technologies with clear environmental and energy security benefits". The IEA's report disagreed with claims that renewable energy technologies are only viable through costly subsidies and not able to produce energy reliably to meet demand. "A portfolio of renewable energy technologies is becoming cost-competitive in an increasingly broad range of circumstances, in some cases providing investment opportunities without the need for specific economic support," the IEA said, and added that "cost reductions in critical technologies, such as wind and solar, are set to continue." 
Fossil-fuel consumption subsidies in non-OECD countries were $409 billion in 2010, oil products being half of it. In OECD countries, fossil fuel consumption subsidies have largely been phased out. Global fossil fuel taxes, mostly in OECD countries and on oil products, yield around $800 billion in revenues annually. Renewable-energy subsidies were $66 billion in 2010 and will reach $250 billion by 2035, according to IEA. Renewable energy is subsidized in order to compete in the market, increase their volume and develop the technology so that the subsidies become unnecessary with the development. Eliminating fossil-fuel subsidies could bring economic and environmental benefits. Phasing out fossil-fuel subsidies by 2020 would cut primary energy demand 5%. Since the start of 2010, at least 15 countries have taken steps to phase out fossil-fuel subsidies. According to IEA onshore wind may become competitive around 2020 in the European Union. 
According to the IEA the phase-out of fossil fuel subsidies, over $500 billion annually, will reduce 10% greenhouse gas emissions by 2050. 
This article's factual accuracy may be compromised due to out-of-date information. (September 2018)
The International Energy Agency estimates that governments subsidised fossil fuels by US $548 billion in 2013.  Ten countries accounted for almost three-quarters of this figure.  At their meeting in September 2009 the G-20 countries committed to "rationalize and phase out over the medium term inefficient fossil fuel subsidies that encourage wasteful consumption".  The 2010s have seen many countries reducing energy subsidies, for instance in July 2014 Ghana abolished all diesel and gasoline subsidies, whilst in the same month Egypt raised diesel prices 63% as part of a raft of reforms intended to remove subsidies within 5 years. 
According to a Congressional Budget Office testimony, roughly three-fourths of the projected cost of tax preferences for energy in 2016 was for renewable energy and energy efficiency. An estimated $10.9 billion was directed toward renewable energy; $2.7 billion, went to energy efficiency or electricity transmission. Fossil fuels accounted for most of the remaining cost of energy-related tax preferences—an estimated $4.6 billion. 
According to a 2015 estimate by the Obama administration, the US oil industry benefited from subsidies of about $4.6 billion per year.  A 2017 study by researchers at Stockholm Environment Institute published in the journal Nature Energy estimated that nearly half of U.S. oil production would be unprofitable without subsidies. 
On March 13, 2013, Terry M. Dinan, senior advisor at the Congressional Budget Office, testified before the Subcommittee on Energy of the Committee on Science, Space, and Technology in the U.S. House of Representatives that federal energy tax subsidies would cost $16.4 billion that fiscal year, broken down as follows:
- Renewable energy: $7.3 billion (45 percent)
- Energy efficiency: $4.8 billion (29 percent)
- Fossil fuels: $3.2 billion (20 percent)
- Nuclear energy: $1.1 billion (7 percent)
In addition, Dinan testified that the U.S. Department of Energy would spend an additional $3.4 billion on financial Support for energy technologies and energy efficiency, broken down as follows:
- Energy efficiency and renewable energy: $1.7 billion (51 percent)
- Nuclear energy: $0.7 billion (22 percent)
- Fossil energy research & development: $0.5 billion (15 percent)
- Advanced Research Projects Agency—Energy: $0.3 billion (8 percent)
- Electricity delivery and energy reliability: $0.1 billion (4 percent) 
A 2009 study by the Environmental Law Institute  assessed the size and structure of U.S. energy subsidies in 2002–08. The study estimated that subsidies to fossil fuel-based sources totaled about $72 billion over this period and subsidies to renewable fuel sources totaled $29 billion. The study did not assess subsidies supporting nuclear energy.
In 2012, a study authored by researchers at the Breakthrough Institute, Brookings Institution, and World Resources Institute  estimated that between 2009 and 2014 the federal government will spend $150 billion on clean energy through a combination of direct spending and tax expenditures. Renewable electricity (mainly wind, solar, geothermal, hydro, and tidal energy) will account for the largest share of this expenditure, 32.1%, while spending on liquid biofuels will account for the next largest share, 16.1%. Spending on multiple and other forms of clean energy, including energy efficiency, electric vehicles and advanced batteries, high-speed rail, grid and transportation electrification, nuclear, and advanced fossil fuel technologies, will account for the remaining share, 51.8%. Moreover, the report finds that absent federal action, spending on clean energy will decline by 75%, from $44.3 billion in 2009 to $11.0 billion in 2014.
A 2017 study by the consulting firm Management Information Services, Inc. (MISI)  estimated the total historical federal subsidies for various energy sources over the years 1950–2016. The study found that oil, natural gas, and coal received $414 billion, $140 billion, and $112 billion (2015 dollars), respectively, or 65% of total energy subsidies over that period. Oil, natural gas, and coal benefited most from percentage depletion allowances and other tax-based subsidies, but oil also benefited heavily from regulatory subsidies such as exemptions from price controls and higher-than-average rates of return allowed on oil pipelines. The MISI report found that non-hydro renewable energy (primarily wind and solar) benefited from $158 billion in federal subsidies, or 16% of the total, largely in the form of tax policy and direct federal expenditures on research and development (R&D). Nuclear power benefited from $73 billion in federal subsidies, 8% of the total and less than half of the total applied to renewables, while hydro power received $105 billion in federal subsidies, 10% of the total. Notable was MISI's finding that between 2011 through 2016, renewable energy received more than three times as much help in federal incentives as oil, natural gas, coal, and nuclear combined, and 27 times as much as nuclear energy.
In the United States, the federal government has paid US$145 billion for energy subsidies to support R&D for nuclear power ($85 billion) and fossil fuels ($60 billion) from 1950 to 2016. During this same timeframe, renewable energy technologies received a total of US $34 billion. Though in 2007 some suggested that a subsidy shift would help to level the playing field and support growing energy sectors, namely solar power, wind power, and bio-fuels. , by 2017 those sources combined had yet to provide 10% of U.S. electricity, and intermittency forced utilities to remain reliant on oil, natural gas, and coal to meet baseload demand. Many of the "subsidies" available to the oil and gas industries are general business opportunity credits, available to all US businesses (particularly, the foreign tax credit mentioned above). The value of industry-specific (oil, gas, and coal) subsidies in 2006 was estimated by the Texas State Comptroller to be $6.25 billion - about 60% of the amount calculated by the Environmental Law Institute.  The balance of federal subsidies, which the comptroller valued at $7.4 billion, came from shared credits and deductions, and oil defense (spending on the Strategic Petroleum Reserve, energy infrastructure security, etc.).
Critics allege that the most important subsidies to the nuclear industry have not involved cash payments, but rather the shifting of construction costs and operating risks from investors to taxpayers and ratepayers, burdening them with an array of risks including cost overruns, defaults to accidents, and nuclear waste management. Critics claim that this approach distorts market choices, which they believe would otherwise favor less risky energy investments. 
Many energy analysts, such as Clint Wilder, Ron Pernick and Lester Brown, have suggested that energy subsidies need to be shifted away from mature and established industries and towards high growth clean energy (excluding nuclear). They also suggest that such subsidies need to be reliable, long-term and consistent, to avoid the periodic difficulties that the wind industry has had in the United States.  
From civilian nuclear power to hydro, wind, solar, and shale gas, the United States federal government has played a central role in the development of new energy industries. 
America's nuclear power industry, which currently supplies about 20% of the country's electricity, has its origins in the Manhattan Project to develop atomic weapons during World War II. From 1942 to 1945, the United States invested $20 billion (2003 dollars) into a massive nuclear research and deployment initiative. But the achievement of the first nuclear weapon test in 1945 marked the beginning, not the end, of federal involvement in nuclear technologies. President Dwight D. Eisenhower's “ Atoms for Peace” address in 1953 and the 1954 Atomic Energy Act committed the United States to develop peaceful uses for nuclear technology, including commercial energy generation.
Commercial wind power was also enabled through government support. In the 1980s, the federal government pursued two different R&D efforts for wind turbine development. The first was a “ big science” effort by NASA and the Department of Energy (DOE) to use U.S. expertise in high-technology research and products to develop new large-scale wind turbines for electricity generation, largely from scratch.  A second, more successful R&D effort, sponsored by the DOE, focused on component innovations for smaller turbines that used the operational experience of existing turbines to inform future research agendas. Joint research projects between the government and private firms produced a number of innovations that helped increase the efficiency of wind turbines, including twisted blades and special-purpose airfoils. Publicly funded R&D was coupled with efforts to build a domestic market for new turbines. At the federal level, this included tax credits and the passage of the Public Utilities Regulatory Policy Act (PURPA), which required that utilities purchase power from some small renewable energy generators at avoided cost.  Both federal and state support for wind turbine development helped drive costs down considerably, but policy incentives at both the federal and state level were discontinued at the end of the decade.  However, after a nearly five-year federal policy hiatus in the late 1980s, the U.S. government enacted new policies to support the industry in the early 1990s. The National Renewable Energy Laboratory (NREL) continued its support for wind turbine R&D, and also launched the Advanced Wind Turbine Program (AWTP). The goal of the AWTP was to reduce the cost of wind power to rates that would be competitive in the U.S. market. Policymakers also introduced new mechanisms to spur the demand of new wind turbines and boost the domestic market, including a 1.5 cents per kilowatt-hour tax credit (adjusted over time for inflation) included in the 1992 Energy Policy Act. Today the wind industry's main subsidy support comes from the federal production tax credit.
The development of commercial solar power was also dependent on government support. Solar PV technology was born in the United States, when Daryl Chapin, Calvin Fuller, and Gerald Pearson at Bell Labs first demonstrated the silicon solar photovoltaic cell in 1954.  The first cells recorded efficiencies of four percent, far lower than the 25 percent efficiencies typical of some silicon crystalline cells today. With the cost out of reach for most applications, developers of the new technology had to look elsewhere for an early market. As it turned out, solar PV did make economic sense in one market segment: aerospace. The United States Army and Air Force viewed the technology as an ideal power source for a top-secret project on earth-orbiting satellites. The government contracted with Hoffman Electronics to provide solar cells for its new space exploration program. The first commercial satellite, the Vanguard I, launched in 1958, was equipped with both silicon solar cells and chemical batteries.  By 1965, NASA was using almost a million solar PV cells. Strong government demand and early research support for solar cells paid off in the form of dramatic declines in the cost of the technology and improvements in its performance. From 1956 to 1973, the price of PV cells declined from $300 to $20 per watt.  Beginning in the 1970s, as costs were declining, manufacturers began producing solar PV cells for terrestrial applications. Solar PV found a new niche in areas distant from power lines where electricity was needed, such as oil rigs and Coast Guard lighthouses. The government continued to support the industry through the 1970s and early 1980s with new R&D efforts under Presidents Richard Nixon and Gerald Ford, both Republicans, and President Jimmy Carter, a Democrat. As a direct result of government involvement in solar PV development, 13 of the 14 top innovations in PV over the past three decades were developed with the help of federal dollars, nine of which were fully funded by the public sector. 
More recently than nuclear, wind, or solar, the development of the shale gas industry and subsequent boom in shale gas development in the United States was enabled through government support.   The history of shale gas fracking in the United States was punctuated by the successive developments of massive hydraulic fracturing (MHF), microseismic imaging, horizontal drilling, and other key innovations that when combined made the once unreachable energy resource technically recoverable. Along each stage of the innovation pipeline – from basic research to applied R&D to cost-sharing on demonstration projects to tax policy support for deployment – public-private partnerships and federal investments helped push hydraulic fracturing in shale into full commercial competitiveness. Through a combination of federally funded geologic research beginning in the 1970s, public-private collaboration on demonstration project and R&D priorities, and tax policy support for unconventional technologies, the federal government played a key role in the development of shale gas in the United States.
Investigations have uncovered the crucial role of the government in the development of other energy technologies and industries, including aviation and jet engines, synthetic fuels,  advanced natural gas turbines,  and advanced diesel internal combustion engines. 
In Venezuela, energy subsidies were equivalent to about 8.9 percent of the country's GDP in 2012. Fuel subsidies were 7.1 percent while electricity subsidies were 1.8 percent. In order to fund this the government used about 85 percent of its tax revenue on these subsidies. It is estimated the subsidies have caused Venezuela to consume 20 percent more energy than without them.  The fuel subsidies are given more heavily to the richest part of the population who are consuming the most energy.  The fuel subsidies maintained a cost of about $0.01 US for a liter of gasoline at the pump since 1996 until president Nicolas Maduro reduced the national subsidy in 2016 to make it roughly $0.60 US per liter (The local currency is Bolivar and the price per liter of gas is 6 Bolivars).  Fuel consumption has increased overall since the 1996 policy began even though the production of oil has fallen more than 350,000 barrels a day since 2008 under that policy.  PDVSA, the Venezuelan state oil company, has been losing money on these domestic transactions since the enactment of these policies.  These losses can also be attributed to the 2005 Petrocaribe agreement, under which Venezuela sells many surrounding countries petroleum at a reduced or preferable price; essentially a subsidy by Venezuela for countries that are a part of the agreement.  The subsidizing of fossil fuels and consequent low cost of fuel at the pump has caused the creation of a large black market. Criminal groups smuggle fuel out of Venezuela to adjacent nations (mainly Colombia). This is due to the large profits that can be gained by this act, as fuel is much more expensive in Colombia than in Venezuela. Despite the fact that this issue is already well known in Venezuela, and insecurity in the region continues to rise, the state has not yet lowered or eliminated these fossil fuel subsidies.   
Russia is one of the world’s energy powerhouses. It holds the world’s largest natural gas reserves (27% of total), the second-largest coal reserves, and the eighth-largest oil reserves.  Russia is the world's third-largest energy subsidizer as of 2015.  The country subsidizes electricity and natural gas as well as oil extraction. Approximately 60% of the subsidies go to natural gas, with the remainder spent on electricity (including under-pricing of gas delivered to power stations).  For oil extraction the government gives tax exemptions and duty reductions amounting to about 22 billion dollars a year. Some of the tax exemptions and duty reductions also apply to natural gas extraction, though the majority is allocated for oil.  In 2013 Russia offered the first subsidies to renewable power generators. The large subsidies of Russia are costly and it is recommended in order to help the economy that Russia lowers its domestic subsidies.  However, the potential elimination of energy subsidies in Russia carries the risk of social unrest that makes Russian authorities reluctant to remove them. 
In February 2011 and January 2012 the UK Energy Fair group, supported by other organisations and environmentalists, lodged formal complaints with the European Union's Directorate General for Competition, alleging that the Government was providing unlawful state aid in the form of subsidies for nuclear power industry, in breach of European Union competition law.  
One of the largest subsidies is the cap on liabilities for nuclear accidents which the nuclear power industry has negotiated with governments. “Like car drivers, the operators of nuclear plants should be properly insured,” said Gerry Wolff, coordinator of the Energy Fair group. The group calculates that, "if nuclear operators were fully insured against the cost of nuclear disasters like those at Chernobyl and Fukushima, the price of nuclear electricity would rise by at least €0.14 per kWh and perhaps as much as €2.36, depending on assumptions made".  According to the most recent statistics, subsidies for fossil fuels in Europe are exclusively allocated to coal (€10 billion) and natural gas (€6 billion). Oil products do not receive any subsidies. 
- Corporate welfare
- Building-integrated photovoltaics#Government subsidies
- Feed-in tariff
- Gasoline subsidies
- Renewable Energy Certificates
- Renewable energy commercialization#Non-technical barriers to acceptance
- Renewable energy payments
- Stranded assets
- Financial incentives for photovoltaics
- OECD, 1998
- Institute for Industrial Productivity JP-6:Subsidy scheme for energy efficiency Archived 2016-03-11 at the Wayback Machine Retrieved 10 March 2016.
- Coady, David; Parry, Ian; Sears, Louis; Shang, Baoping (March 2017). "How Large Are Global Fossil Fuel Subsidies?". World Development. 91: 11–27. doi: 10.1016/j.worlddev.2016.10.004.
- John Schwartz (5 December 2015).
"On Tether to Fossil Fuels, Nations Speak With Money". The New York Times.
Archived from the original on 6 December 2015. Retrieved 5 December 2015.
...the elimination of subsidies as one of the most effective strategies for reducing greenhouse gas emissions.
- Ross, Michael L.; Hazlett, Chad; Mahdavi, Paasha (January 2017). "Global progress and backsliding on gasoline taxes and subsidies". Nature Energy. 2 (1): 16201. Bibcode: 2017NatEn...216201R. doi: 10.1038/nenergy.2016.201. Archived from the original on 2017-03-25.
- Indra Overland (2010) ‘Subsidies for Fossil Fuels and Climate Change: A Comparative Perspective’, International Journal of Environmental Studies, Vol. 67, No. 3, pp. 203-217. "(PDF) Subsidies for fossil fuels and climate change: A comparative perspective". Archived from the original on 2018-02-12. Retrieved 2018-02-11.
- "Energy subsidies in the European Union: A brief overview. Technical report No 1/2004" (PDF). European Environmental Agency. 2004. Archived from the original on 2012-03-14. Retrieved 2012-04-11.
- 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 2007-03-21. Retrieved 2008-03-09.CS1 maint: Multiple names: authors list ( link)
- Whitley, Shelagh. "Time to change the game: Fossil fuel subsidies and climate". Overseas Development Institute. Archived from the original on 3 January 2014. Retrieved 3 January 2014.
- Douglas F. Barnes; Jonathan Halpern (2000). "The role of energy subsidies" (PDF). Energy and Development Report: 60–66. Archived (PDF) from the original on 2008-10-16. Retrieved 2008-03-09.
- 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 2004-04-06. Retrieved 2008-03-09.
- 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 "WTO and Renewable Energy: Lessons from the Case Law". 49 JOURNAL OF WORLD TRADE 6, Kluwer Law International. 2015-12-15. SSRN 2704453.
- 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
- "OECD Companion to the Inventory of Support Measures for Fossil Fuels 2015 | READ online". OECD iLibrary. Retrieved 2018-11-23.
- "Explainer: The challenge of defining fossil fuel subsidies | Carbon Brief". Carbon Brief. 2017-06-12. Retrieved 2018-11-23.
- "The IMF says we spend $5.3 trillion a year on fossil fuel subsidies. How is that possible?". Vox. Retrieved 2018-11-23.
- Skovgaard, Jakob (2017-03-24). "The devil lies in the definition: competing approaches to fossil fuel subsidies at the IMF and the OECD". International Environmental Agreements: Politics, Law and Economics. 17 (3): 341–353. doi: 10.1007/s10784-017-9355-z. ISSN 1567-9764.
- Mathiesen, Karl (27 May 2016). "G7 nations pledge to end fossil fuel subsidies by 2025". The Guardian. Archived from the original on 6 June 2016. Retrieved 7 June 2016.
- "Forthcoming, Draft synthesis report on environmentally harmful subsidies, SG/SD(2004)3". OECD. 2004-03-16.
- Fossil fuel subsidies are “public enemy number one” – IEA Chief Archived 2013-02-11 at the Wayback Machine EWEA 04 Feb 2013
- "Relative Subsidies to Energy Sources: GSI estimates 19 APRIL 2010" (PDF). Archived from the original (PDF) on 13 May 2013.
- "Renewable Energy Being Held Back by Fossil Fuel Subsidies – IEA". Oilprice.com. 1 November 2011. Archived from the original on 3 November 2011.
- "EU wind industry faces tough challenge - and politicians should not make it worse EWEA 04 Feb 2013". Retrieved March 23, 2013.
- World Energy Outlook 2011 Factsheet Archived February 4, 2012, at the Wayback Machine How will global energy markets evolve to 2035? IEA November 2011 6 pages
- Henning Gloystein (Nov 23, 2011). "Renewable energy becoming cost competitive, IEA says". Reuters. Archived from the original on 2015-10-16.
- "President Obama's Climate Action Plan - Climate Resilience - Renewable Energy". Scribd. Archived from the original on 5 March 2016. Retrieved 3 May 2018.
- "Energy Subsidies". International Energy Agency. 2015. Archived from the original on 2015-04-26. Retrieved 2015-04-27.
- van der Hoeven, Maria (27 January 2015). "Opportunity to act: making smart decisions in a time of low oil prices" (pdf). p. 8. Archived (PDF) from the original on 3 April 2015.
- "Joint report by IEA, OPEC, OECD and World Bank on fossil-fuel and other energy subsidies: An update of the G20 Pittsburgh and Toronto Commitments" (pdf). International Energy Agency. 2011. p. 2. Archived (PDF) from the original on 2014-12-10. Retrieved 2015-04-27.
- "Recent Developments in Energy Subsidies" (pdf). International Energy Agency. 2015. Archived (PDF) from the original on 2015-09-26. Retrieved 2015-04-27.
- Simo sai jättimäiset tuulivoimalat HS 3.4.2014 A10
- "Fossil Fuel Support - TUR", OECD, accessed September 2018.
- Dinan, Terry (2017-03-29).
"CBO Testimony, Federal support for developing, producing, and using fuels and energy technologies" (PDF).
Archived (PDF) from the original on 2017-10-16. Retrieved 11/7/2017. Check date values in:
|access-date=( help); External link in
- McDonnell, Tim (2017-10-02). "Analysis | Forget the Paris agreement. The real solution to climate change is in the U.S. tax code". Washington Post. ISSN 0190-8286. Archived from the original on 2017-10-02. Retrieved 2017-10-03.
- Congressional Budget Office. Testimony Federal Financial Support for Fuels and Energy Technologies. Terry M. Dinan, Senior Advisor. Before the Subcommittee on Energy. Committee on Science, Space, and Technology. U.S. House of Representatives. March 13, 2013. "Archived copy" (PDF). Archived (PDF) from the original on 2014-10-09. Retrieved 2015-01-04.CS1 maint: Archived copy as title ( link). Accessed 4 January 2015.
- "Estimating U.S. Government Subsidies to Energy Sources: 2002-2008" (PDF). Environmental Law Institute. September 2009. Archived (PDF) from the original on January 8, 2014. Retrieved January 7, 2014.
- Jesse Jenkins, Mark Muro, Ted Nordhaus, Michael Shellenberger, Letha Tawney, and Alex Trembath (April 2012). Beyond Boom & Bust: Putting Clean Tech on a Path to Subsidy Independence (PDF). Breakthrough Institute, Brookings Institution, and World Resources Institute. Retrieved 2013-09-23.
- Management Information Services, Inc. (May 2017). Two Thirds of a Century and $1 Trillion+ U.S. Energy Incentives - Analysis of Federal Expenditures for Energy Development, 1950-2016 | pages=1 (PDF).
- Pernick, Ron and Wilder, Clint (2007). The Clean Tech Revolution: The Next Big Growth and Investment Opportunity, p. 280.
- Accounts, Texas Comptroller of Public. "Welcome to the New Comptroller.Texas.Gov". window.state.tx.us. Archived from the original on 27 June 2012. Retrieved 3 May 2018.
- Koplow, Doug (February 2011). "Nuclear Power:Still Not Viable without Subsidies" (PDF). Union of Concerned Scientists. p. 1. Archived (PDF) from the original on 2011-03-09.
- Brown, L.R. (2006). Plan B 2.0 Rescuing a Planet Under Stress and a Civilization in Trouble Archived 2007-07-11 at the Wayback Machine W.W. Norton & Co, pp. 234-235.
- Jesse Jenkins, Devon Swezey, and Yael Borofsky (December 2010). Where Good Technologies Come From: Case Studies in American Innovation Archived 2013-03-01 at the Wayback Machine (PDF). Breakthrough Institute. Retrieved April 2014.
- Vicki Norberg-Bohm (October 2002). "Pushing and Pulling Technology into the Marketplace: The Role of Government in Technology Innovation in the Power Sector,” in The Role of Government in Energy Technology Innovation: Insights for Government Policy in Energy the Sector, ed. Vicki Norberg-Bohm, BSCIA Working Paper 2002-14, Energy Technology Innovation Project, Belfer Center for Science and International Affairs.
- Chris P. Knight (2010). “Failure to Deploy: Solar Photovoltaic Policy in the United States,” in State of Innovation: The U.S. Government’s Role in Technology Development, ed. Fred Block and Matthew R. Keller, (Boulder, CO: Paradigm Publishers).
- Margaret Taylor et al. (October 2007). Government Actions and Innovation in Clean Energy Technologies: The Cases of Photovoltaic Cells, Solar Thermal Electric Power, and Solar Water Heating Archived 2013-09-28 at the Wayback Machine (PDF). California Energy Commission CEC-500-2007-012. Retrieved 2013-09-23.
- Alex Trembath, Jesse Jenkins, Ted Nordhaus, and Michael Shellenberger (May 2012). Where the Shale Gas Revolution Came From: Government's Role in the Development of Hydraulic Fracturing in Shale (PDF). Breakthrough Institute. Retrieved 2013-09-23.
- Jason Burwen and Jane Flegal (March 2013). Case Studies on the Government's Role in Energy Technology Innovation: Unconventional Gas Exploration & Production Archived 2013-09-24 at Wikiwix (PDF). American Energy Innovation Council. Retrieved 2013-09-23.
- Travis R. Doom (August 2013). Case Studies on the Government's Role in Energy Technology Innovation: Aerodrive Gas Turbines Archived 2015-10-15 at Wikiwix (PDF). American Energy Innovation Council. Retrieved 2013-09-23.
- Jeffrey Rissman and Hallie Kennan (March 2013). Case Studies on the Government's Role in Energy Technology Innovation: Advanced Diesel Internal Combustion Engines Archived 2013-09-25 at Wikiwix (PDF). American Energy Innovation Council. Retrieved 2013-09-23.
- Troncoso, Karin; Soares da Silva, Agnes (2017-08-01). "LPG fuel subsidies in Latin America and the use of solid fuels to cook". Energy Policy. 107: 188–196. doi: 10.1016/j.enpol.2017.04.046.
- "The wild frontier". The Economist. 2014-08-16. Archived from the original on 24 March 2018. Retrieved 3 May 2018.
- Brodzinsky, Sibylla (2016-02-17). "Venezuela president raises fuel price by 6,000% and devalues bolivar to tackle crisis". The Guardian. ISSN 0261-3077. Archived from the original on 2017-08-06. Retrieved 2017-08-04.
- Monaldi, Francisco (September 2015). "THE IMPACT OF THE DECLINE IN OIL PRICES ON THE ECONOMICS, POLITICS AND OIL INDUSTRY OF VENEZUELA". Columbia SIPA: Center on Global Energy Policy – via Columbia University.
- Di Bella, Gabriella (February 2015). "Energy Subsidies in Latin America and the Caribbean: Stocktaking and Policy Challenges". IMF Working Paper – via IADB.
- Robalino-López, Andrés; Mena-Nieto, Ángel; García-Ramos, José-Enrique; Golpe, Antonio A. (2015-01-01). "Studying the relationship between economic growth, CO2 emissions, and the environmental Kuznets curve in Venezuela (1980–2025)". Renewable and Sustainable Energy Reviews. 41: 602–614. doi: 10.1016/j.rser.2014.08.081. hdl: 10272/9314.
- "Episode 2, Caribbean with Simon Reeve - BBC Two". BBC. Archived from the original on 27 February 2018. Retrieved 3 May 2018.
- González, Ángel (12 April 2013). "Almost-Free Gas Comes at a High Cost". Archived from the original on 7 December 2017. Retrieved 3 May 2018 – via www.wsj.com.
- Vyas, Kejal (9 June 2014). "Venezuela Pays Price for Smuggling". Archived from the original on 17 January 2018. Retrieved 3 May 2018 – via www.wsj.com.
- Grant, Dansie; Marc, Lanteigne; Overland, Indra (2010-02-01). "Reducing Energy Subsidies in China, India and Russia: Dilemmas for Decision Makers". Sustainability. 2 (2): 475–493. doi: 10.3390/su2020475. Archived from the original on 2018-04-11.
- "WEO - Energy Subsidies". worldenergyoutlook.org. Archived from the original on 2017-08-15. Retrieved 2017-08-06.
- Ogarenko, Luliia (November 2015). "G20 subsidies to oil, gas and coal production: Russia" (PDF). IISD. Archived (PDF) from the original on 2017-05-11.
- "June: IEA releases review of Russian energy policies". iea.org. Archived from the original on 2017-03-21. Retrieved 2017-08-06.
- Legal bid to halt nuclear construction[ permanent dead link], Energy Fair, published 2011-11-07, accessed 2012-01-20
- UK 'subsidising nuclear power unlawfully' Archived 2012-01-20 at the Wayback Machine BBC, published 2012-01-20, accessed 2012-01-20
- "Complaint about nuclear subsidies may prevent new reactor builds". Energy and Environmental Management. 24 January 2012. Archived from the original on 26 May 2013.
- 'Subsidies and costs of EU energy' Archived 2016-03-28 at the Wayback Machine European Commission, published 2014, accessed 2017-06-20