Tom Randall of BloombergBusiness reports that the renewable-energy boom is here. Trillions of dollars will be invested over the next 25 years, driving some of the most profound changes yet in how humans get their electricity. That’s according to a new forecast by Bloomberg New Energy Finance that plots out global power markets to 2040.
Here are some massive shifts coming soon to power markets near you:
1. Solar Prices Keep Crashing
The price of solar power will continue to fall, until it becomes the cheapest form of power in a rapidly expanding number of national markets. By 2026, utility-scale solar will be competitive for the majority of the world, according to BNEF. The lifetime cost of a photovoltaic solar-power plant will drop by almost half over the next 25 years, even as the prices of fossil fuels creep higher.
Solar power will eventually get so cheap that it will outcompete new fossil-fuel plants and even start to supplant some existing coal and gas plants, potentially stranding billions in fossil-fuel infrastructure. The industrial age was built on coal. The next 25 years will be the end of its dominance.
2. Solar Billions Become Solar Trillions
With solar power so cheap, investments will surge. Expect $3.7 trillion in solar investments between now and 2040, according to BNEF. Solar alone will account for more than a third of new power capacity worldwide. Here’s how that looks on a chart, with solar appropriately dressed in yellow and fossil fuels in pernicious gray:
3. The Revolution Will Be Decentralized
The biggest solar revolution will take place on rooftops. High electricity prices and cheap residential battery storage will make small-scale rooftop solar ever more attractive, driving a 17-fold increase in installations. By 2040, rooftop solar will be cheaper than electricity from the grid in every major economy, and almost 13 percent of electricity worldwide will be generated from small-scale solar systems.
$2.2 Trillion Goes to Rooftops by 2040
4. Global Demand Slows
Yes, the world is inundated with mobile phones, flat screen TVs, and air conditioners. But growth in demand for electricity is slowing. The reason: efficiency. To cram huge amounts of processing power into pocket-sized gadgets, engineers have had to focus on how to keep those gadgets from overheating. That’s meant huge advances in energy efficiency. Switching to an LED light bulb, for example, can reduce electricity consumption by more than 80 percent.
So even as people rise from poverty to middle class faster than ever, BNEF predicts that global electricity consumption will remain relatively flat. In the next 25 years, global demand will grow about 1.8 percent a year, compared with 3 percent a year from 1990 to 2012. In wealthy OECD countries, power demand will actually decline.
This watercolor chart compares economic growth to energy efficiency. Each color represents a country or region. As economies get richer, growth requires less power.
The Beauty of Efficiency
5. Natural Gas Burns Briefly
Natural gas won’t become the oft-idealized “bridge fuel” that transitions the world from coal to renewable energy, according to BNEF. The U.S. fracking boom will help bring global prices down some, but few countries outside the U.S. will replace coal plants with natural gas. Instead, developing countries will often opt for some combination of coal, gas, and renewables.
Even in the fracking-rich U.S., wind power will be cheaper than building new gas plants by 2023, and utility-scale solar will be cheaper than gas by 2036.
Fossil fuels aren’t going to suddenly disappear. They’ll retain a 44 percent share of total electricity generation in 2040 (down from two thirds today), much of which will come from legacy plants that are cheaper to run than shut down. Developing countries will be responsible for 99 percent of new coal plants and 86 percent of new gas-fired plants between now and 2040, according to BNEF. Coal is clearly on its way out, but in developing countries that need to add capacity quickly, coal-power additions will be roughly equivalent to utility-scale solar.