Coal exit benefits outweigh its costs

23/03/2020 - Coal combustion is not only the single most important source of CO2, accounting for more than a third of global emissions, but also a major contributor to detrimental effects on public health and biodiversity. Yet, globally phasing out coal remains one of the hardest political nuts to crack. New computer simulations by an international team of researchers are now providing robust economic arguments for why it is worth the effort: For once, their simulations show that the world cannot stay below the 2 degrees limit if we continue to burn coal. Second, the benefits of phasing out coal clearly outweigh the costs. Third, those benefits occur mostly locally and short-term, which make them useful for policy makers.
Coal exit benefits outweigh its costs

“We’re well into the 21st century now and still heavily rely on burning coal, making it one of the biggest threats to our climate, our health and the environment. That’s why we decided to comprehensively test the case for a global coal exit: Does it add up, economically speaking? The short answer is: Yes, by far,” says Sebastian Rauner, lead author and researcher at the Potsdam Institute for Climate Impact Research (PIK). For their computer simulations, the researchers looked not only at electricity generation, but at all energy sectors, including transport, buildings, industry and agriculture.

“We find that, based on all countries’ current climate pledges under the Paris Agreement, humanity is so far not on track to keep global warming below 2 degrees. Yet, if all countries would introduce coal exit policies, this would reduce the gap to fulfilling the goal by 50 percent worldwide. For coal-heavy economies like China and India, quitting coal would even close the gap by 80-90 percent until 2030.”

Graphic from Rauner et al (2020) in Nature Climate Change.

The researchers developed a simulation framework which considers the full life cycle effects of phasing out coal, accounting not only for all impacts along of coal combustion from shaft to chimney, but also how a coal exit would affect the remaining energy sources and the energy sector as a whole.  For the first time, they analysed monetised environmental and human health costs, thus enabling a comparison with mitigation costs: “In particular, we looked at two externalities: Human health costs, especially caused by respiratory diseases, and biodiversity loss, as measured on the basis of how much it would cost to rewild areas currently cultivated. The mitigation costs, in turn, are mostly economic growth reductions and costs for investments in the energy system.”

Phasing out coal yields global net saving effect

“Benefits from reduced health and ecosystem impacts clearly overcompensate the direct economic costs of a coal exit - they amount to a net saving effect of about 1.5 percent of global economic output in 2050 - that is, 370$ for every human on Earth in 2050.”, Gunnar Luderer explains, leader of the energy research group at PIK and Professor for Global Energy Systems Analysis at the Technical University of Berlin. “We see this effect already in the medium term. In particular, India and China could reap most of those benefits already by 2030.” 

China and India are prime cases for a coal exit given their high reliance on coal and pressing air pollution crises, magnified by high population density, as well as population growth in India and an increasingly vulnerable aging population in China. Thus people could feel the positive effects of a coal exit almost immediately in their daily lives. “This has very significant policy implications: It makes a huge difference for the citizens of an Indian or Chinese megacity what air they breeze, and for farmers how intact ecosystems are. These benefits are immediate and local,” says Sebastian Rauner. “So the incentives towards policy makers are twofold: One, it is not unlikely that phasing out coal can win popular support, and eventually elections. Two, it is worthwhile phasing out coal even if your neighbours do not.”

Ending coal is just the beginning

“Phasing out coal could hence be one way out of what we know as the tragedy of the commons,” adds Nico Bauer, a co-author of the study and also at PIK, “Coal phase-out has a positive synergy between the global climate challenge and local environmental pollution. In international climate negotiations, governments need to factor-in that exiting coal is a cheap way to substantially reduce global greenhouse gas emissions and has huge co-benefits at home. Our study shows that national and global interests are not necessarily trading-off, but can go hand in hand.”

Given the Paris Agreement’s current requirement for updates to the Nationally Determined Contributions (NDCs), this paper comes quite timely, comments co-author Gunnar Luderer: “It underscores the benefits of a global coal exit – to the better of our planet and our health. Yet, importantly, ending coal is just the beginning. It must be flanked by further ambitious climate policies to avoid a lock-in to other fossil fuels, namely oil or natural gas.”

Article: Sebastian Rauner, Nico Bauer, Alois Dirnaichner, Rita Van Dingenen, Chris Mutel, Gunnar Luderer (2020): Coal exit health and environmental damage reductions outweigh economic impacts.  Nature Climate Change [DOI: 10.1038/s41558-020-0728-x]

Link to the article: https://www.nature.com/articles/s41558-020-0728-x

Previous related research by PIK:

  • Gunnar Luderer, Michaja Pehl, Anders Arvesen, Thomas Gibon, Benjamin L. Bodirsky, Harmen Sytze de Boer, Oliver Fricko, Mohamad Hejazi, Florian Humpenöder, Gokul Iyer, Silvana Mima, Ioanna Mouratiadou, Robert C. Pietzcker, Alexander Popp, Maarten van den Berg, Detlef van Vuuren, Edgar G. Hertwich  (2019): Environmental co-benefits and adverse side-effects of alternative power sector decarbonization strategies. Nature Communications [DOI: 10.1038/s41467-019-13067-8], see our press release here
  • Michaja Pehl, Anders Arvesen, Florian Humpenöder, Alexander Popp, Edgar Hertwich, Gunnar Luderer (2017): Understanding Future Emissions from Low-Carbon Power Systems by Integration of Lice Cycle Assessment and Integrated Energy Modelling. Nature Energy [DOI: 10.1038/s41560-017-0032-9]