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UC Leads the Way to Make Paris Accord a Reality

New Nature paper and UC report outline three-step solution for countries to reduce carbon emissions

Solar panels on UC Merced's Science and Engineering Building, courtesy UC Office of the President


  • Christine Clark

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  • Christine Clark

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Mitigating climate change and the harms it poses to humanity is one of the biggest challenges facing the international community; however, the University of California (UC) has identified a three-step plan to achieve deep decarbonization that may lay the groundwork for policy-makers around the globe to take action to meet the goals outlined in the 2015 Paris Agreement.

A paper published February 27th in Nature Climate Change amplifies this message and presents the strategy developed by a 27-member team, which was uniquely comprised of researchers, facilities managers, sustainability officers and students from across the UC campuses. They convened two years ago to help the UC identify strategies to become carbon neutral by 2025.

“Cities, firms and other local actors are on the frontlines of serious action to address climate change. Where they succeed the rest will follow,” said team member and lead author of the Nature paper David Victor, a professor at UC San Diego’s School of Global Policy and Strategy. “The University of California system is poised to be one of the world’s most important leaders.”

The University of California, covering 10 campuses with more than 250,000 students, pledged to become carbon neutral by 2025—an ambitious goal that can now become a reality, thanks to findings in a recent report by the team, which in addition to Victor, incudes Dave Weil, UC San Diego director of sustainability and carbon neutrality. The report presents a feasible strategy to achieve a measure that would be especially game changing: replacing natural gas with climate-friendlier options.

Making carbon neutrality a reality

“Some decarbonization pathways are surprisingly economical,” said the report’s lead author Alan Meier, a senior scientist at Lawrence Berkeley National Laboratory (a U.S. Department of Energy lab managed by the University of California) and adjunct professor at UC Davis.

Like the state of California, UC campuses rely on highly efficient power plants that burn natural gas. Since natural gas accounts for two-thirds of the greenhouse gases emitted by all UC operations, phasing it out will be critical for a carbon-neutral future.

The report’s three-step plan  for weaning off natural gas entails aggressively increasing energy efficiency across all ten campuses and five medical centers; replacing natural gas with biogas in the short term; and in the long run, electrifying all end uses of energy and switching to only renewable sources.

An immediate priority for reducing the UC’s natural gas dependency is to use less of it. Already, the UC is on the leading edge of energy efficiency, and the report encourages a continued push toward “deep energy efficiency” by retrofitting more existing buildings and designing new buildings to be not only highly efficient but also all-electric, rather than reliant on gas-fueled systems.

“The cost of renewable electricity is falling, and our ability to design efficient all-electric facilities is improving,” said Meier. “We can build carbon-neutral buildings.”

Deep efficiency would also mean cost savings, freeing up money to reinvest in further decarbonization measures. The report estimates that continuing to aggressively retrofit existing buildings at all campuses could capture an additional $19 million per year of net energy cost savings by 2025, on top of the $24 million per year the UC has already achieved over the past decade from its efficiency measures. 

“Economically, energy efficiency is a no brainer,” said project director David Auston, a senior fellow at the National Center for Ecological Analysis and Synthesis (NCEAS) and researcher at the Institute for Energy Efficiency, both of UC Santa Barbara.

To wean campuses off of their remaining natural gas needs, the report assessed replacing it with biogas, or energy derived from organic materials such as food and agricultural waste, certain crops and biosolids from wastewater treatment plants. While chemically identical to natural gas, biogas is climate friendlier because it is renewable – the plants that produce the carbon burned for energy also consume atmospheric carbon.

The report frames biogas as a stepping stone to carbon neutrality for the UC, rather than a long-term solution. Like its fossilized counterpart, biogas is mostly methane, a greenhouse gas, which means methane emissions from gas infrastructure would still be an issue.

“We view biogas as an interim measure that buys us more time. Ultimately, it must be phased out and replaced by 100 percent electrification,” said Auston.

Complete electrification will mean converting all university buildings and facilities to electricity powered by solar, wind and other renewable sources, a conversion that is already underway at some campuses. A full transformation could unfold with time and some technological leaps – for example, advancing the technology and adoption of renewable energy storage and equipping existing buildings with heat-transferring technologies, such as heat pumps, to reduce their reliance on central heating loops.

Can the UC achieve its goal of carbon neutrality by 2025?

“The goal is achievable, but it may not happen the way people expect it to,” said Meier, alluding mainly to the temporary reliance on biogas to get campuses over the hump.

It will also depend on what individual campuses do. Auston called their report a “broad-brush plan” that serves as a starting point to be individualized for each campus, and a lot will depend on the allocation of resources and willingness of campus leadership to take action.

“We hope the report will generate a dialogue that will help people get their arms around these big questions,” said Auston.

The report also illustrates the value of taking a ground-level and integrated approach to developing a carbon neutrality strategy, with its incorporation of both scientific analyses and the practicalities of implementation through the involvement of researchers and facilities staff.

“We combined intellectual talent from within the University of California with practical expertise from its facilities departments to create realistic low-carbon solutions,” said Meier. “The fact that we could find solutions through that approach could be extended to the rest of the country and the world.”

Independent from the UC’s Carbon Neutrality Initiative, the report and paper are part of the larger TomKat Carbon Neutrality Project to identify practical, bottom-up strategies for meeting the 2025 deadline. This effort was funded by the TomKat Foundation and the UC Office of the President and co-led by UC Santa Barbara’s National Center for Ecological Analysis and Synthesis (NCEAS) and the Institute for Energy Efficiency (IEE).

“This new report is a great example of why we recently formed the University Climate Change Coalition with leading research universities across North America,” said David Phillips, Associate Vice President for Energy and Sustainability at the UC Office of the President. “It is critically important that we apply this kind of climate research knowledge locally to help our government and business partners achieve their climate goals.”

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