The 2 Key Reasons the World Can’t Reverse Climate Emissions
New figures show we’re using more energy and still pumping out more emissions — so why aren’t we moving the dial?
Global energy demand and related carbon emissions both rose again in 2018, according to new figures out this week.
This comes as no surprise. The analysis from the International Energy Agency is in line with other preliminary reports from other organizations. But it raises an awkward question: if renewables are growing and the prices of solar, wind, and batteries are falling, why is the world’s climate pollution still going up?
The first answer is the growing global economy, which pushed energy demand up by 2.3% last year, the IEA says. A contributing factor was that more energy was needed for extra heating and cooling in regions hit by unusually severe cold snaps and heatwaves. These were at least partly driven by our shifting climate. All of that drove increases in generation from coal and natural gas, both of which spew greenhouse gases that warm the planet.
Ultimately, those fossil fuel increases outpaced sharp improvements in solar and wind generation, both of which climbed by double digits in 2018. Even nuclear generation grew at modest levels, rising 3.3%, mainly due to new turbines in China and four reactors that went back online in Japan, according to the IEA.
But figures deeper in the report highlight a systemic issue that’s preventing us from driving down emissions in a consistent way.
From 2000 to 2018, while the portion of global electricity generation from solar and wind grew by 7%, nuclear declined by the same percentage. Meanwhile, coal only dipped by 1% over that time, while natural gas, which emits just more than half as much carbon dioxide, climbed from 18% to 23%.
In other words, the share of worldwide generation that renewables has claimed largely came at the expense of another source of carbon-free power, rather than by eating deeply into fossil fuels. Once you add that to the increasing use of natural gas and coal use to fuel economic growth, it’s no surprise that the world still isn’t making a real dent in energy emissions, decades after the threat of climate change became clear.
“If you’re replacing one zero carbon source with another, you’re not really changing the carbon intensity of electricity,” says Nikos Tsafos, at the Center for Strategic and International Studies in Washington, DC, who highlightedthis issue on Twitter. So while “certain data points say we’re making tremendous progress … if you flip the perspective a bit, you find, ‘Oh, we’re not really moving the dial here.’”
It’s clear we need nuclear power to help produce a greater proportion of carbon-free energy. But many nuclear power stations around the world are due for retirement or are already being decommissioned. Meanwhile, no new capacity is coming online thanks to tougher regulations and safety concerns intensified by Japan’s Fukushima disaster in 2011, as well as steep development costs (see: “Meltdown of Toshiba’s nuclear business dooms new construction in the US”). In particular, nuclear has struggled to compete against the dirt cheap costs of natural gas, which accounted for almost 45% of the increase in energy demand last year, according to the IEA report.
But despite the public distaste for nuclear, it has a critical advantage over other clean sources. It generates electricity that doesn’t fluctuate depending on the time or day or weather conditions, so it can help to balance out intermittent wind and solar generation, without requiring vast amounts of expensive storage or transmission upgrades to the grid. A next generation of plants that are cheaper, safer, and easier to build might also help assuage a skeptical public’s fears.
Most models from the UN’s climate research body call for a substantial uptick in nuclear power. Under the IEA’s Sustainable Development Scenario, which lays out a path to achieve a stable climate and universal energy access, the world would need to add 17 gigawatts of nuclear capacity every year, nearly doubling our current fleet by 2040.
As things stand, the world’s retiring plants will remove around 200 gigawatts by 2040. That will make it nearly impossible to reach those targets unless companies and policymakers decide to extend the life of those facilities, or get busy building many more.