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Building green energy facilities may produce substantial carbon emissions, says study

But speeding the transition might nearly cancel the effect

Date:
November 21, 2022
Source:
Columbia Climate School
Summary:
A new study says that moving the world energy system away from fossil fuels and into renewable sources will generate carbon emissions by itself, as construction of wind turbines, solar panels and other new infrastructure consumes energy -- some of it necessarily coming from the fossil fuels we are trying to get rid of. But if this infrastructure can be put on line quickly, the study asserts, those emissions would dramatically decrease, because far more renewable energy early on will mean far less fossil fuel needed to power the changeover.
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FULL STORY

First, the bad news: Nothing is free. Moving the world energy system away from fossil fuels and into renewable sources will generate carbon emissions by itself, as construction of wind turbines, solar panels and other new infrastructure consumes energy -- some of it necessarily coming from the fossil fuels we are trying to get rid of. The good news: If this infrastructure can be put on line quickly, those emissions would dramatically decrease, because far more renewable energy early on will mean far less fossil fuel needed to power the changeover.

This is the conclusion of a study that for the first time estimates the cost of a green transition not in dollars, but in greenhouse gases. The study appears this week in the Proceedings of the National Academy of Sciences.

"The message is that it is going to take energy to rebuild the global energy system, and we need to account for that," said lead author Corey Lesk, who did the research as a Ph.D. student at the Columbia Climate School's Lamont-Doherty Earth Observatory. "Any way you do it, it's not negligible. But the more you can initially bring on renewables, the more you can power the transition with renewables."

The researchers calculated the possible emissions produced by energy use in mining, manufacturing, transport, construction and other activities needed to create massive farms of solar panels and wind turbines, along with more limited infrastructure for geothermal and other energy sources. Previous research has projected the cost of new energy infrastructure in dollars -- $3.5 trillion a year every year until 2050 to reach net-zero emissions, according to one study, or up to about $14 trillion for the United States alone in the same period, according to another. The new study appears to be the first to project the cost in greenhouse gases.

On the current slow pace of renewable infrastructure production (predicted to lead to 2.7 degrees C warming by the end of the century), the researchers estimate these activities will produce 185 billion tons of carbon dioxide by 2100. This alone is equivalent to five or six years of current global emissions -- a hefty added burden on the atmosphere. However, if the world builds the same infrastructure fast enough to limit warming to 2 degrees -- current international agreement aims to come in under this -- those emissions would be halved to 95 billion tons. And, if a truly ambitious path were followed, limiting warming to 1.5 degrees, the cost would be only 20 billion tons by 2100 -- just six months or so of current global emissions.

The researchers point out that all their estimates are probably quite low. For one, they do not account for materials and construction needed for new electric-transmission lines, nor batteries for storage -- both highly energy- and resource-intensive products. Nor do they include the cost of replacing gas- and diesel- powered vehicles with electric ones, or making existing buildings more energy efficient. The study also looks only at carbon-dioxide emissions, which currently cause about 60 percent of ongoing warming -- not other greenhouse gases including methane and nitrous oxide.

Other effects of the move to renewables are hard to quantify, but could be substantial. All this new high-tech hardware will require not just massive amounts of base metals including copper, iron and nickel, but previously lesser-used rare elements such as lithium, cobalt, yttrium and neodymium. Many commodities would probably have to come from previously untouched places with fragile environments, including the deep sea, African rain forests and fast-melting Greenland. Solar panels and wind turbines would directly consume large stretches of land, with attendant potential effects on ecosystems and people living there.

"We're laying out the bottom bound," said Lesk of the study's estimates. "The upper bound could be much higher." But, he says, "the result is encouraging." Lesk said that given recent price drops for renewable technologies, 80 to 90 percent of what the world needs could be installed in the next few decades, especially if current subsidies for fossil-fuel production are diverted to renewables. "If we get on a more ambitious path, this whole problem goes away. It's only bad news if we don't start investing in the next 5 to 10 years."

As part of the study, Lesk and his colleagues also looked at carbon emissions from adapting to sea-level rise; they found that construction of sea walls and moving cities inland where necessary would generate 1 billion tons of carbon dioxide by 2100 under the 2-degree scenario. This, again, would be only part of the cost of adaptation; they did not look at infrastructure to control inland flooding, irrigation in areas that might become drier, adapting buildings to higher temperatures or other needed projects.

"Despite these limitations, we conclude that the magnitude of CO2 emissions embedded in the broader climate transition are of geophysical and policy relevance," the authors write. "Transition emissions can be greatly reduced under faster-paced decarbonization, lending new urgency to policy progress on rapid renewable energy deployment."

The other authors of the study are Denes Csala of the United Kingdom's University of Lancaster; Robin Krekeler and Antoine Levesque of Germany's Potsdam Institute for Climate Impacts Research; Sgouris Sgouridis of the Dubai Electricity and Water Authority; Katharine Mach of the University of Miami; Daniel Horen Greenford and H. Damon Matthews of Canada's Concordia University; and Radley Horton of Lamont-Doherty Earth Observatory. Corey Lesk is now a postdoctoral researcher at Dartmouth College.


Story Source:

Materials provided by Columbia Climate School. Original written by Kevin Krajick. Note: Content may be edited for style and length.


Journal Reference:

  1. Corey Lesk, Denes Csala, Robin Hasse, Sgouris Sgouridis, Antoine Levesque, Katharine J. Mach, Daniel Horen Greenford, H. Damon Matthews, Radley M. Horton. Mitigation and adaptation emissions embedded in the broader climate transition. Proceedings of the National Academy of Sciences, 2022; 119 (47) DOI: 10.1073/pnas.2123486119

Cite This Page:

Columbia Climate School. "Building green energy facilities may produce substantial carbon emissions, says study." ScienceDaily. ScienceDaily, 21 November 2022. <www.sciencedaily.com/releases/2022/11/221121215743.htm>.
Columbia Climate School. (2022, November 21). Building green energy facilities may produce substantial carbon emissions, says study. ScienceDaily. Retrieved December 20, 2024 from www.sciencedaily.com/releases/2022/11/221121215743.htm
Columbia Climate School. "Building green energy facilities may produce substantial carbon emissions, says study." ScienceDaily. www.sciencedaily.com/releases/2022/11/221121215743.htm (accessed December 20, 2024).

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