Southern California Gas Co. announced grant funding has been awarded to Lawrence Livermore National Laboratory (LLNL) and Stanford School of Engineering’s Spormann Laboratory to conduct new power-to-gas research. The two entities will receive $800,000 from the U.S. Department of Energy (DOE). SoCalGas will provide co-funding of $400,000 in addition to $125,000 of seed funding it provided in 2017. The research will be conducted at both LLNL and Spormann in August, and is expected to be complete by mid-2020.
The initiative will research the use of microbes to convert carbon dioxide directly to methane using renewable electricity, a process known as microbial electromethanogenesis (ME). If developed as envisioned, ME could become a highly efficient, large-scale storage technology for excess wind and solar energy. This would, in turn, make both renewable electricity and renewable natural gas less expensive and more plentiful.
The research will continue past research by Spormann Laboratory on microbes that create methane, as well as advances in 3D-printed carbon aerogel electrode materials made by LLNL. Biogas will be supplied by Delta Diablo, a Livermore, Calif., wastewater treatment plant. Raw biogas is mostly methane, but also contains about 30 to 40% carbon dioxide, which is typically vented to the atmosphere in a biogas production facility.
“This technology has the potential to cut the cost of processing biogas, while nearly doubling the amount of this easily-stored renewable energy and reducing carbon dioxide emissions,” said Yuri Freedman, SoCalGas senior director of business development. “It could make a big difference for small-scale biogas producers like dairy farms and feedlots, which collectively make up the majority of California’s renewable natural gas potential.”
SoCalGas provided funding to this research to further develop the technologies known as power-to-gas (P2G), which stores excess renewable electricity as renewable gas rather than in conventional batteries. Power-to-gas has two distinct advantages over batteries: nearly unlimited amounts of electricity can be easily stored for very long periods of time, and it can be stored and used with existing infrastructure.