Ringside: Evaluating Underground CO2 Sequestration in California

via californiaglobe.com

While the confirmed skeptic will consider Carbon Capture and Sequestration (CCS) to be the ultimate waste of money, it nonetheless is happening. Billions of dollars have already been committed, with no end in sight. Regardless of how one might judge its necessity, having some facts about CCS belongs in any serious discussion about California’s energy future. So here goes, starting with natural gas used for generating electricity.

According to the California Air Resources Board, natural gas fueled electricity generating plants emit approximately 42 million metric tons (MMT) of CO2 per year, which is 11 percent of California’s total emissions of CO2, estimated at 381 MMT in 2021. These plants also generated over 97,000 gigawatt-hours of electricity, fully 50 percent of California’s in-state electricity production in that year. What if all of that CO2 could be pumped underground?

One primary consideration would be whether or not there is enough underground capacity for all this CO2. Estimates of capacity vary a great deal. A 2006 study by the California Energy Commission and the U.S. Dept. of Energy came up with a range between 146 and 840 gigatons of “geologic carbon sequestration potential in California.” According to a 2007 DOE study, the “estimated storage capacity of saline formations in the ten largest basins in California ranges from about 150 to about 500 Gt of CO2.” A more recent 2021 study by the Stanford Center for Carbon Storage concluded “California could store 60 million tons per year for more than 1,000 years.”

The somewhat surprising consensus is unequivocal. There’s plenty of room down there. A gigaton is a thousand million tons. Which means that even the implied 60 gigaton capacity referenced in the Stanford study, by far the lowest estimate, could accommodate the current level of CO2 emissions from California’s natural gas power plants for over 14 centuries. But what about the cost to retrofit these plants?

The good news is that compared to extracting CO2 from the atmosphere, extracting flue gas from natural gas power plants is much easier and less costly. That’s because atmosphere is about 0.04 percent CO2, whereas in flue gas emissions from natural gas power plants the CO2 is at least 100 times more concentrated. Skeptics take note – focus your reality checks on the schemes out there to remove CO2 directly from the atmosphere. It’s orders of magnitude more impractical.

As for flue gas, according to a 2023 DOE analysis that analyzes the energy required as well as the construction retrofit cost to extract CO2 from flue gas, the energy required will consume about 13 percent of a power plant’s total electrical output, and cost an estimated $1.3 million per net megawatt of capacity. What does this portend for California’s fleet of natural gas power plants?

its important here to emphasize that basing retrofit costs on general estimates, even though they are credible and recent, is a tricky business. For starters, everything costs more in California, so while the cost to retrofit a natural gas power plant in Texas to sequester its CO2 emissions might come in under the DOE estimate, doing that here in California might cost considerably more. Moreover, each plant will have distinct features that may add or subtract costs. But to rely on the DOE figures, it would cost $44 billion to retrofit every one of California’s natural gas powered generating plants to extract CO2 from their emissions and pump it underground.

Don’t laugh. $44 billion is not that much.

To begin with, California’s natural gas power plants are being wasted. While they typically generate just under 100,000 gigawatt-hours each year, half of in-state capacity and one-third of total electricity consumption (we import about one-third of our electricity into California from other states), they are capable of generating well over 300,000 gigawatt-hours. This is because California’s natural gas power plants, for the most part, are kept offline until the sun goes down or the wind stops blowing, wherein they’re fired up to make up the difference. In 2022, their uptime was only 28 percent.