How the IEA is still grossly biased against renewables
The International Energy Agency (the IEA) is hopelessly biased against renewable energy both in terms of the projections of future energy development it has made and also in the way it frames the statistics about energy supply. The statistical methods used by the IEA favour fossil fuels and nuclear power. The IEA does not give sufficient attention to energy efficiency. These things can be illustrated by reference to analysis of its past energy projections and also by analysing the way it counts energy statistics. The question that must be posed, is what is the point of the IEA if it gets things so badly wrong?
I begin this discussion by talking about the contrast between the IEA’s projections of nuclear power generation in the future with their projections of renewable energy, focussing on solar PV. Then I turn to discussing how the IEA’s method of presenting the energy statistics is biased towards fossil fuels and nuclear power and against renewable energy. I illustrate my points with a discussion of UK energy statistics. I discuss how the IEA’s statistical methods biases discussion against the energy efficiency advantages of electrification in general. Again I illustrate my argument with some projections in the case of UK energy.
How the IEA has been biased in their future energy projections
The IEA has had a consistent tendency to be over-optimistic about the prospects for nuclear power. For example, in its 2010 report it projected, in its ‘new policies’ scenario, a 46 per cent increase in world nuclear generation between 2009 and 2023 (see HERE on page 84). In fact nuclear production in 2023 was identical to that of 2009.
By contrast the IEA grossly underestimated increases in renewable energy generation. As can be seen in the Figure 1 below, reproduced from a recently published academic paper the IEA has had a consistent habit of projecting much smaller increases in world solar PV generation than has happened in practice. The vertical axis represents annual solar PV additions in GW. The IEA projections consistently have solar pv capacity more or less levelling off in the future, whereas in reality there has been exponential growth of the technology.
Figure 1 Annual solar PV additions by WEO outlook scenarios compared to historical developments
Source: G. Lopez, Y. Pourjamal, C. Breyer (2025) ‘Paving the way towards a sustainable future or lagging behind? An ex-post analysis of the International Energy Agency'sWorld Energy Outlook’, Renewable and Sustainable Energy Reviews Volume 212, April 2025, 115371, page 17 Figure 29. See paper HERE
Now it is certainly true that in the last couple of years the IEA has been producing some much more realistic energy projections for the future. However much of its language, and its method of counting the statistics remains in the same vein that downplays the role of renewables.
Analysis of IEA method of counting energy statistics
The UK as an example
Under the IEA’s accounting of energy statistics, nuclear power accounted for 123 TWh of UK energy production in 2023. Note that I have converted the TJ units used by the IEA into TWh which is more usually used for generation of electricity. You can see the IEA’s figures HERE. But what is odd about these figures is that the nuclear energy figures are rather larger than the figures for solar and wind, which amount to 97TWh of generation in 2023. Yet, according to the British Government’s own electricity generation statistics (see HERE) there was only 40.6 TWh of nuclear generation, not the 123 TWh reported by the IEA. In fact, as reported by the UK Government, solar and wind between them really generated rather more than double the quantity of nuclear power generated in the UK on 2023.
The IEA rationale
There is something obviously strange about these IEA figures even from a first glance because wind and solar etc appear to be producing less energy than nuclear power in the UK. This even though the UK Government energy statistics show that wind, solar and hydro produced around twice as much electricity in 2023 compared to nuclear power. The same sort of bias occurs when dealing with fossil fuel production. Around half of energy used in generating electricity from gas fired power plant is wasted, yet all of the energy, including the wasted energy is included in the IEA’s statistics for energy generation from gas.
In the case of nuclear power around two-thirds of the energy used to generate the nuclear electricity is wasted. Yet the wasted energy is included in the IEA data making it look like solar and wind actually produce less energy than nuclear power! The IEA’s justification for this disparity is to point out that in fact nuclear power stations do produce around three times the energy that gets converted into electricity. It is just that this energy goes up cooling towers or into rivers or seas.
So, the methodological reason that the statistics are so biased is because the IEA uses a method for counting energy statistics which includes the energy wasted when fossil fuels and nuclear power are used to produce useful energy. On the other hand when it comes to renewable energy fuels, essentially wind, solar, and some hydro power sources only the final energy production, that is the amount of electricity that is generated, is used in the data. I would explain the reasons for the bias by reference to the IEA’s fossil fuel focussed history and intergovernmental priority being given to nuclear energy. The IEA does not play any important role in international energy transactions themselves, but it does have an important information role that influences the policy environment.
The (in)efficiency bias against renewables
Another, very important aspect of IEA bias is that its main focus on energy supply implicitly downplays the energy efficiency. Take for instance the IEA press release of February 25th 2025 where there was talk of the ‘world’s surging electricity demand’ (see HERE). Nuclear power is mentioned 8 times, solar 4 times, wind power twice. Note that the mentions of nuclear are out of all proportion to their recent growth where nuclear lags behind renewables. Meanwhile heat pumps and electric vehicles were given no specific mentions at all.
The emphasis on nuclear power growth compared to renewables is not supported by facts. As can be seen in Figure 2, whilst world nuclear power growth has been next to zero this century, non hydro renewables (almost all wind and solar) has increased rapidly leaving nuclear power a long way behind.
Figure 2
Source: David Toke (2024) Energy Revolutions - Profiteering versus Democracy, Pluto Press, page 17
In fact, solar and wind energy, being delivered through electricity, is associated with the most efficient means of supplying electricity. This can be demonstrated by comparison with the use of fossil fuels. Yet the way the IEA frames the debate, organises its statistics and makes its wildly erroneous projections does not help us understand this.
According to UK Government statistics for 2023, around 72 per cent of oil consumption in the UK is used in the transport sector. Around one third of the natural gas consumed in the UK is used to make electricity. However, much of this energy is wasted. In the transport sector the bulk of energy is wasted in inefficient internal combustion engines. In a green energy system this waste is eliminated, leaving us with a much reduced total for energy consumption compared to IEA accounting.
The way that solar and wind production statistics are counted themselves represent a major element of the bias. Apparently, it is ok to include amounts of fossil fuels or nuclear power wasted in production or when generated through equipment such as boilers or motor vehicle engines. On the other hand the wind or solar energy that is not collected by wind or solar farms from the available wind and solar energy is ignored by the IEA statisticians.
For example, normally solar panels convert no more than around 20 per cent of the sunlight they receive into electricity. But the other 80 per cent is not counted as solar production. In the case of wind turbines, less than a half of the available wind energy is turned into electricity generation, but this ‘wasted’ wind energy is not counted as part of production.
As I have already commented, in the case of natural gas used for electricity generation, approximately 2 units of gas will be needed to produce one unit of electricity. Yet under the IEA’s method, a given kWh of electricity produced from gas will count as double the value of the electricity generated from wind, solar, hydro, or tidal power.
Gas boilers account for most of the rest of natural gas consumption. They will on average be no more than around 80 per cent efficient in practice (note existing ones, not brand new boilers under ideal test conditions). By contrast heat pumps actually produce around three times the useful heat output compared to the amount of electricity needed by the heat pumps. They also reduce energy consumption by similar amounts when used to replace conventional air conditioning systems.
Energy Efficiency through electrification
In the case of nuclear power and oil consumption the pro-fossil fuel and pro-nuclear bias in the statistics gets even worse. In the IEA statistics a kWh of electricity generated by nuclear power counts as triple the amount of electricity generated by wind or solar power. This is despite the fact that a kWh of electricity from solar or wind will power your tv set just as much as a kWh of electricity from nuclear power.
The oil statistics obscure the contribution to reduction of energy consumption that will come from electrification. Motor vehicles will waste around 70-75% of their energy. But this is not counted in the figures which therefore grossly exaggerate the useful energy produced by fossil fuels used in transport. By comparison Electric Vehicles are around three times as energy efficient as fossil fuel vehicles. On the other hand solar/wind powered EVs will use about a third of the energy compared to the wasteful fossil fuel powered vehicles. Even in the case of aircraft, battery technology is evolving at such a rapid pace that laboratory based research implies in 20 years even medium-range air flights will be done using battery electric technology.
In looking at renewables, a distinction has to be drawn between sources like wind and solar and biomass. Biofuels are themselves usually an inefficient means of providing energy services. This is because no more than around a third of what is counted as biofuel production is turned into useful final energy such as electricity or fuel for motor vehicles.
The extent of the wastefulness of the current energy system comes when we compare an efficient electrified economy powered totally by renewable energy with our current one. By efficient electrification, I mean one where heating and air conditioning services are provided by heat pumps and transport is done through battery-electric technology. Indeed if this is achieved then total UK energy consumption will fall by nearly half. I calculate this using data drawn from UK Government estimates of energy consumed in the process of delivering different types of service (See for instance data HERE and HERE). In Figure 3 I present the distribution of energy consumption in an energy-efficient economy where transport and heating is delivered through battery electric technology and heat pumps respectively.
Because this system is one where all transport and heating is done by battery electric technology and heat pumps respectively it involves much less energy to produce exactly the same level of service as today. I assume that the same heating levels are achieved and in transport the number of miles travelled remains the same as was the case in 2023 in the UK. It is powered entirely by renewable energy, mostly wind and solar.
In a energy system that is completely powered by fluctuating renewables long-term storage is needed, at least to afford complete cover in those weeks where there is little or no solar PV or wind. Also there is fluctuation in wind and solar production between different years. This need to provide long term storage will add around 4-7 per cent of annual generation needs, depending on how much ‘overcapacity’ is built into the system . Over 10-12 years this would build up to be equivalent to 40-70 per cent of a single year’s total generation. I am assuming that green hydrogen produced by electrolysing water with renewable energy is used and stored, although there are various other possibilities. See papers analysing 100 per cent renewable energy systems (see HERE and HERE). This provision of long term storage should not be confused with short term storage within particular days done through conventional batteries.
Figure 3 Shares of UK Energy Consumption based on 100 per cent renewable energy (RE) scenario
Note: Analysis of impact of switch to use of heat pumps for all heating drawn from UK Government data on patterns of final energy consumption: ECUK 2024: Consumption data tables (Excel) (see HERE) and also Government data on oil products (see HERE). I have used 2020 levels of final energy consumption since these are the latest available. I have added on 10 per cent to the final energy consumption figures to account for wastage (eg transmission and distribution losses) when comparing with the amount of renewable energy needed to deliver this level of final energy.
Altogether the 100 per cent renewables scenario will reduce the total UK energy consumption in 2023 from 1904 TWh to 891 TWh according to my calculations. This is shown in Figure 4 . This a reduction of around 53 per cent to provide the same level of services as provided today. In making this calculation I am using the UK Government’s assessment of total UK primary (that is, raw) energy and comparing it with the energy efficient scenario. The Government’s statistics in mtoe have been converted to TWh. For discussion and data on total UK primary energy consumption as measured by the UK Government see HERE, page 14.
Figure 4 Total UK energy consumption in 2023 compared with energy efficient 100 per cent renewable energy scenario.
In some ways this assessment understates the level of likely energy reduction since this analysis (which is based on limited time resources) made no allowance for increases in the energy efficiency of buildings - something which is improving all the time as new buildings replace older ones.
Conclusion
The way that the IEA compiles its statistics is grossly biased against renewable energy and in favour of fossil fuels and nuclear power. Its future energy projections have been abysmal, and this failure illustrates its appalling bias. The IEA’s approach also obscures the impact of energy transition which will involve increasing dominance by electric-battery and heat pump technologies. The IEA fails to give priority to energy efficiency. Rather it tends to talk more about absolute increases in energy consumption, such as in data centres (for example see HERE).
Yet such notions of accelerated absolute increases in energy consumption have already proved to be overblown. This is demonstrated by China’s DeepSeek AI project which is being powered by a small fraction of the energy consumption of earlier AI projects (See HERE). The IEA is also keen on pushing nuclear power fantasies, including small modular reactors (see HERE).
In general the IEA tends to talk about energy security rather than energy transition, as can be seem in the executive summary of its 2024 World Energy Energy Outlook (see HERE). Yet energy transition will implicitly give us energy security. It will do through the replacement of of insecure and volatile fossil fuel supplies with renewable energy and electrically based energy efficient technologies.
The key to understand this is that the IEA is not independent in focus or finance. The IEA is financed by a collection of mostly western governments. We should remember that the IEA was formed to, in effect, help western countries cope with the fact that the western based oil companies lost control of oil markets after 1973. The Secretariat is based in nuclear-dominated France. The information it gives is seriously flawed.
The conditions which led to the IEA’s formation have fundamentally changed. Our biggest challenge now is energy transition and the climate struggle to reduce greenhouse gas emissions. The IEA’s projections are wholly unreliable and its statistics give a false impression of what is happening.
The main energy trade groups already have their own trade associations - eg IRENA for renewables, the WNA for nuclear, and we know that the oil and gas companies look after themselves. If the IEA is to play a useful role it needs to shift its language, its statistical methods and away from it mostly supply centred focus. A new raft of work has to be created with a mission of promoting energy efficiency technologies.
Thanks David - excellent article!
I remember sitting through several annual presentations on the IEA renewables projections at the Australian National University a few years back. Frankly they were, even then, obviously and embarrassingly simply wrong.
As a little sidebar about matters here in Australia, you may have heard that the right-wing Liberal/National Coalition opposition are (pretendingly seriously) proposing a fleet of nuclear reactors, to be operational in ten years (hope you didn't injure yourself laughing at that)...oh and, as no private capital will go near it, finances by the taxpayers (for you lot in the UK, that would be like Thatcher wanting to nationalise the railways).
Every time rational, evidence-based problems are raised by expert and impartial bodies such as the CSIRO and the Climate Council the Coalition shriek about politicisation. But the one I really love (that they never mention) is that even Fatih Birol, the head of the IEA, when interviewed by the strenuously right-wing Australian Financial Review, said that, much as he generally supported nuclear, it simply didn't add up for Australia, either financially or technically.
That's how insane energy policy discussion cam become...
I knew about the laughable solar predictions, but I di not realized they counted primary energy for the electricity generation from nuclear and fossil fuels. This is insane! Thanks for flagging it.
I don't know if the solution is to kill the IEA, it mostly responds to what governments ask. We just need to continue to lobby our individual governments - and keep on building renewables. The reality of a better energy system will eventually prevail