California gets most of its electricity from fossil fuels, like this natural gas power plant in Long Beach.

California gets most of its electricity from fossil fuels, like this natural gas power plant in Long Beach. (Lauren Sommer/KQED)

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California is barreling ahead with its ambitious climate change goals, pushing renewable energy and cleaner cars. That doesn’t mean that fossil fuels are going away anytime soon.

Some doubt that the state can meet its lofty goals without capturing carbon emissions from fossil-fired power plants and stashing it someplace, like deep underground.

But despite millions in government investment, “carbon capture and storage,” as it’s called, has largely flopped in California.

Faced with high costs and public opposition, several projects have failed to move beyond the planning stage.

Listen to the story:

The pilot projects gathered momentum six years ago, when they got a boost from the federal Recovery Act funding program, which was designed to develop emerging technology.

Back then, Keith Pronske, CEO of Clean Energy Systems was riding a wave of optimism for the carbon capture project he was developing, known as the Kimberlina power plant.

“We’ve had a lot of interest,” he told me in 2009. “We’ve had a lot of folks from really all over the world.”

The power plant burned natural gas, which is still where most of California’s electricity comes from. But this one had a key difference: Pronske pointed to an overhead pipe wide enough that it looked like you could roll basketballs through it.

“What we have here is essentially pure CO2,” he said. “Instead of a big stack venting everything to atmosphere, we’re capturing it all.”

Pronske’s idea was to take the carbon dioxide, compress it, and inject it underground, where it would be permanently trapped by rock layers thousands of feet down.

“This is about changing the way power is produced,” he said. “If you bring the carbon up, use it and put it back is the basic idea.”

It was designed to be a model project, the first of its kind in California to demonstrate zero-carbon energy from fossil fuels.

Six years later, it remains a dream.

“Well, it’s been a bit of a wild ride and we’ve had a few bumps,” Pronske said, when I caught up with him in December.

His company’s plans had largely stalled. He had looked for a utility to buy the electricity from his power plant, but with little success.

How carbon capture and sequestration works.
Many carbon-capture-and-sequestration, or CCS schemes aim to intercept carbon emissions and store them underground. (Vattenfall)

“The big focus is on renewable energy – wind and solar,” he said, which utilities are mandated to purchase by state policy. “So we had a hard time finding a market.”

His project’s electricity would be pricier than wind or solar because it also has to cover the cost of burying the carbon underground.

“You bang your head against the wall several times and you figure out it’s not going to really accomplish anything,” he said.

Other Projects Stall Out

Pronske isn’t alone. Two other carbon capture projects in California are facing the same fate.

One in Northern California was cancelled. C6 Resources, an affiliate of Shell, was awarded $3 million in stimulus funds for the Northern California CO2 Reduction Project,  where a million tons of carbon were to be sequestered underground in Solano County.

But the lion’s share of stimulus funding went to Hydrogen Energy California (HECA), a larger project in Kern County. The Department of Energy offered it more than $400 million in grants. It’s already spent $152 million, but it missed so many deadlines, it had to give up its claim on $122 million last summer.

HECA had originally planned to sell the carbon it captured to the oil industry, where it would have been used to boost production from oil wells. After those plans fell through, the project is now looking to sequester the carbon underground, if it can overcome some fierce pubic opposition.

“The idea that these projects are green in some way is not true,” said Evan Gillespie, who runs the campaign against the project for the Sierra Club.

Unlike Pronske’s natural gas project, HECA would use coal, a fuel California has spurned because of its air pollution and huge carbon footprint.

“The idea that we were going to provide a lifeline to an industry that is a huge public health threat and is actively destroying our climate,” said Gillespie. “We found it really problematic to see a state like California that was such a leader on green energy be so open to coal again.”

Gillespie does see a limited role for capturing carbon. “There are a number of heavy industries: steel, cement factories,” he said. “But in the electric sector, there are just too many cheaper options that have no carbon footprint.”

This is a core debate around capturing carbon from power plants. Some see it as a way to prop up fossil fuels. Others say we won’t be able to cut carbon emissions fast enough without it.

In December, when international leaders met in Paris to tackle climate change, scientists said that the world would have to drastically cut emissions, even to negative levels, to avoid the most catastrophic impacts.

“We have to de-carbonize everything we can,” says Sally Benson, a professor of energy at Stanford University and a longtime proponent of carbon capture.

“If we have to wait to replace every gas or coal plant with renewables, I think we’ve run out of time,” she says. The power plants being built today will keep emitting for decades.

Going Too Big?

Benson admits that big challenges remain for carbon capture. Getting permits for the projects at the county and state level can be complicated, to put it kindly. There are also questions of liability about who is responsible for keeping the carbon underground indefinitely.

Clean Energy Systems' Kimberlina Power Plant, just north of Bakersfield.
Clean Energy Systems’ Kimberlina Power Plant, just north of Bakersfield.

Financing may be the biggest challenge.

“When you start talking half-billion to one-billion-dollar projects, people begin to get nervous,” said Pronske.

That hasn’t stopped a state agency, the California Air Resources Board, from kick-starting a brand new process in February to set up rules and guidelines for carbon capture projects, in the hope that the technology will become part of the state’s strategy to meet its climate change goals.

“Carbon capture and sequestration has the potential to help us meet our long term goals, but we need to better understand the extent and ensure that any projects would maintain environmental integrity,” said Dave Clegern, a spokesperson at the Air Resources Board.

The upcoming state guidelines are giving many in the carbon capture industry hope.

“These regulations are critical to establish greater certainty for investors in commercialization and in assuring environmental protection and climate change benefits,” said Elizabeth Burton, technical director of the West Coast Regional Carbon Sequestration Partnership (WESTCARB), a research collaboration launched by the Department of Energy.

Burton defends the use of government stimulus funding on the previous projects, saying the work they completed could inform future projects.

“They were also useful in progressing the technology by laying the groundwork and providing lessons learned for how to develop a carbon capture, use and storage project in California,” she said.

But with a string of high-profile failures around the country, including the $1.65 billion FutureGen project in Illinois, Pronske worries that carbon capture is getting a bad reputation.

“It’s been a little frustrating, just because it’s Goldilocks and the Three Bears,” he said. “We went too big to start with. The real issue is getting across the valley of death of: how do we get these first plants built?”

Putting a hefty price on carbon pollution could be the silver bullet the industry is looking for. If polluters have to pay for every ton of carbon they emit, capturing carbon from power plants starts to look pretty good, Benson says.

“I think there really has to be clear price on carbon,” she speculates. “$50 a ton plus – that will get people to really pay attention.”

California already has put a price on carbon, as part of its cap-and-trade program, but it’s only about $12 dollars a ton.

“We’re on a roller coaster and I’m sure it will continue to be that way for a long time,” Benson said.

In the meantime, regulators at the California Energy Commission will decide the final fate of the HECA project sometime this spring.

  • solodoctor

    Thanks for a summary of where things stand with carbon capture here in Calif. Looks like it faces a lot of challenges in the months and years to come if it is to be viable. I look forward to more follow up reporting as this evolves.

  • This is a variation on geoengineering, the idea that we don’t need to change our behavior and wean ourselves off fossil fuels. Those who drive big SUV’s will also perceive it that way. Very bad idea.

  • Isn’t it time to get past pushing and pulling electrons, or making them jump through little p’s and n’s?

    It’s much easier to simply make new ones, here’s how:

  • David Swiss

    Why bury this stuff? Why not use it? Plants need this stuff! We can store it, convert it, run heat pumps with it. We can also run them with methane, ethane, other refrigerant gasses before burning them, producing carbon carbon dioxide, the topic at hand. Those heat pumps might heat and cool buildings and greenhouses. They could also be used to maintain temperature gradients, thus maintaining airflow. This would be useful with an aquaponic greenhouse. It would be much cheaper than these projects, I’m sure.


Lauren Sommer

Lauren is a radio reporter covering environment, water, and energy for KQED Science. As part of her day job, she has scaled Sierra Nevada peaks, run from charging elephant seals, and desperately tried to get her sea legs - all in pursuit of good radio. Her work has appeared on Marketplace, Living on Earth, Science Friday and NPR's Morning Edition and All Things Considered. You can find her on Twitter at @lesommer.