Clean Energy Is Outspending Fossil Fuels Nearly Two To One

For every dollar the world invests in fossil fuels today, it invests nearly two in clean energy. Despite record political backlash, the money keeps moving in one direction, and it is not the direction the headlines suggest.

According to the International Energy Agency's new World Energy Investment 2026 report, global energy investment is set to reach about $3.4 trillion this year. Roughly $2.2 trillion is expected to flow into clean energy, including renewables, nuclear, grids, storage, efficiency and electrification. About $1.2 trillion will go to oil, gas and coal.

This is a historic shift. But it invites a fair objection that deserves a real answer.

Fossil fuels do not compete on a level field. Governments around the world still spend enormous sums keeping fossil energy cheaper than it otherwise would be. These subsidies are usually defended as protection for households during periods of high prices. They also keep fossil fuels artificially competitive against cleaner alternatives. So the honest question is this. If we add fossil fuel subsidies to fossil fuel investment, does clean energy still lead?

A deliberately tough test

The chart below takes the same IEA investment data and stacks fossil fuel consumption subsidies, measured with the IEA’s price-gap method , on top of fossil fuel investment. To keep it fair, it does the same on the clean side, adding the public support that flows to renewables.

This is not a perfect accounting exercise, and it is worth saying so plainly. The figures come from different datasets, and there is an asymmetry worth naming. Fossil-fuel subsidies mostly appear as direct government support, including consumer price support and producer incentives such as tax breaks and other measures that help lower costs or encourage production. The figures used here include only these direct subsidies and do not include the much larger estimates that also account for unpriced climate, health and environmental damages. Clean-energy subsidies, by contrast, often help finance investments that may already be counted in clean-energy spending totals, creating some potential overlap. I have shown both for completeness, but the numbers should be viewed as directional rather than strictly additive. The broader conclusion remains unchanged: governments continue to provide substantial support to fossil fuels even as investment increasingly flows toward clean energy.

As a stress test, it does its job. It asks a deliberately difficult question of clean energy. Even if we hand fossil fuels one of the most generous accounting advantages possible, does the lead survive?

It does. In only one year did fossil fuels pull ahead, and the story of that year proves the rule rather than breaking it. The IEA estimates that fossil fuel consumption subsidies passed $1 trillion for the first time in 2022, as governments scrambled to shield consumers after Russia’s invasion of Ukraine. It took a global energy shock and a trillion dollars of public money to make fossil fuels look stronger than clean energy, and only for twelve months.

By 2023, governments were still spending around $620 billion to subsidize fossil fuel use, according to the IEA’s Strategies for Affordable and Fair Clean Energy Transitions . That was nearly nine times the roughly $70 billion spent that year helping consumers buy electric vehicles, heat pumps and efficiency upgrades.

Widen the lens and the picture sharpens. The International Monetary Fund estimates explicit fossil fuel subsidies at around $0.73 trillion in 2024, but puts the implicit subsidy, the unpaid costs of air pollution, climate damage and congestion, at $6.7 trillion. Fossil fuels are not cheap. They are underpriced, and society quietly pays the difference.

But isn’t it still mostly fossil?

Here the conversation meets its strongest objection, and it is a real one. Across all the energy the world uses, not just electricity but transport, heat and industry too, fossil fuels still supply about 80%. And that share has barely moved in 60 years.

That long, almost flat line is why so many people assume nothing is changing. The share even crept back up during the coal boom of the 2000s. Glance only at this total, and the transition looks like a promise that never arrives.

But the 80% tells us where the system has been. Investment tells us where it is going.

The all-energy total is a rear-view mirror. It measures how slowly the whole system turns, not where it is heading. And the leading edge, electricity, has already started to bend.

In 2025 the world crossed a line it had not crossed in a century. According to Ember’s Global Electricity Review 2026 , renewables generated 34% of global electricity and overtook coal, which fell below a third of the mix for the first time in history. Together with nuclear, fossil-free sources reached 43% of the world’s power. Most striking of all, clean generation grew by enough to cover the entire rise in electricity demand, so fossil generation did not increase at all. It was the first year this century that fossil power fell in both China and India. Solar did most of the work, having grown more than tenfold in a decade and now roughly doubling every three years.

Electricity has cleaned up first because so much hydro, nuclear, wind and solar already lives there. The reason the all-energy figure is still near 80% is the rest of the system. Cars, furnaces and factories still run mostly on oil and gas, and that is what the headline number captures, the slowest-moving part of the transition rather than the fastest. The IEA has called the all-energy share stuck for decades around 80% , and it is. But that is the part of the system just beginning to turn, following electricity.

Which brings us to the most misunderstood point in the entire energy debate.

You do not need to replace all 80%

When people hear that fossil fuels supply 80% of energy, they imagine we must build an equal amount of clean energy to replace every unit. That is the primary energy trap, and it badly overstates the task.

The reason is waste. A barrel of oil or a tonne of coal is not useful energy. It is raw energy that has to be extracted, refined, shipped, then burned, and most of it is lost along the way. According to RMI , of the 606 units of primary energy that entered the global system in 2019, only 227 ended up as useful energy, the heat, motion and light people actually want. The system is just 37% efficient. Almost two-thirds of all the energy we dig up is wasted before it does a single thing of value, a loss RMI puts at more than $4.6 trillion a year, or roughly $600 for every person on Earth.

Crucially, a large share of that waste is energy spent simply running the fossil system itself. RMI finds that extraction and refining, getting fuels out of the ground and turning them into usable form, waste around 51 exajoules a year. Moving fuels around the planet wastes more. By Rystad’s estimate, nearly half of all global shipping demand exists for one purpose only: to transport fossil fuels. The world burns fuel to ship fuel, then burns more to liquefy and regasify it. Pipelines run pumps and compressors and leak along the way. None of this energy lifts a home’s temperature or moves a single passenger. It is the cost of operating a system built on digging things up and hauling them across oceans.

This is where clean energy changes the maths, and it is the heart of the matter. Sunlight and wind do not need to be mined. They do not need to be refined. They do not need to be shipped through a strait or pumped down a pipeline. As RMI puts it, wind and solar can be generated almost entirely without losses, because they require effectively no extraction or processing energy and suffer none of the thermal losses of a power plant that burns fuel. A rooftop solar panel transports its energy a few metres down a wire. The fuel arrives on its own, for free, every morning.

The combustion losses vanish too. A coal plant throws away around 60% of its energy as waste heat up the cooling tower. A petrol car wastes roughly three-quarters of its fuel before the wheels turn. The clean replacements do the same jobs on a fraction of the input. A heat pump moves heat rather than burning fuel to create it, delivering the same warmth on around a quarter of the energy. An electric motor turns nearly all its electricity into motion. The IEA’s Energy Efficiency analysis finds electrified technologies are typically two to four times more efficient than the fossil machines they replace.

Add it together and the 80% shrinks dramatically. We do not need to find 606 units of clean energy to match what fossil fuels supply today. We need to deliver the 227 units of useful service, and clean electricity delivers each one with far less energy in. A transition is not a like-for-like swap of one fuel for another. It is the replacement of a wasteful system with a lean one. That is also why, in the IEA’s net-zero scenarios, total energy demand can fall even as the world grows richer and uses more energy services. The same comfort, mobility and light, delivered with much less waste.

This is not a reason for complacency. The hard parts are real: building grids fast enough, adding storage, speeding up permitting, and financing clean power in the developing economies where demand is rising fastest. But it reframes the size of the mountain. The fossil share looks immovable only if you assume every wasted joule must be replaced. It does not.

Why the investment lead matters now

This is where the two halves of the story meet. Investors are not simply betting on cleaner energy. They are betting on a system that wastes far less of it in the first place, and that delivers the same comfort, mobility and light with fewer units of energy bought, shipped and burned. That is a bet on lower cost and lower risk, not just lower emissions.

Energy infrastructure does not change the day money is committed. A wind farm, a grid line or a battery factory takes years to finance, permit and build. So today’s investment numbers are not just a snapshot of the present. They are construction orders for the 2030s. Wind farms approved today will still be generating in the 2050s. Transmission lines financed this year may carry power into the next century. The IEA notes that around three-quarters of this year’s energy investment is effectively locked in by decisions already made. The energy system of the future is not a distant idea. Much of it is already under construction.

The same logic that makes clean energy efficient also makes it secure. Because sunlight and wind need no shipping, a country that builds them is far less exposed to the next price shock or blockade. The IEA estimates that clean energy and efficiency saved the five largest fuel-importing regions around $260 billion in avoided fossil fuel imports in 2025 alone. That is not only a climate benefit. It is independence.

The question almost no one asks

None of this means fossil fuels are vanishing. They are not. Coal investment this year is the highest since 2012, much of it in Asia, where governments continue to back new capacity in the name of energy security and economic growth. Gas supply spending also sits at a decade high. The system is enormous and will remain part of our lives for years.

But size is not the same thing as strength.

Even as new coal plants are still being built, some of the world's largest coal industries increasingly depend on subsidies, tax relief and public support simply to remain viable.

The cracks are already visible. In Russia, more than half of coal producers are now unprofitable , dozens of companies have already shut down, and many more are at risk. President Vladimir Putin's government has responded with billions of rubles in tax relief, discounted rail tariffs and other support measures aimed at keeping the industry afloat. In the United States, the Trump administration this month announced roughly $700 million in new federal support for coal plants , exports, and new projects.

Both stories point to the same reality: when an industry increasingly depends on public support to stay competitive, markets may already be delivering their verdict.

Which raises a simple question.

If fossil fuels are still the future, why do they increasingly need rescuing?

Governments are now spending hundreds of billions to defend the side that is already losing the investment race, while slowing down the more efficient, more secure, and increasingly cheaper option. That money would do far more good aimed at the real bottlenecks: grids, storage, faster permitting, skilled workers, and lower-cost capital for the developing world.

Capital is not required to be optimistic. It is required to be profitable.

And right now, by nearly two to one, global investment is moving toward the cleaner, more electric, and more home-grown side of the ledger.

Fossil fuels still dominate the system we have.

But increasingly, the world's capital is building the clean system of tomorrow.