‘Big sponge’: new CO2 tech taps oceans to tackle global warming

Gaurav Sant and fellow scientists from University of California Los Angeles (UCLA) have been working for two years on SeaChange
Gaurav Sant and fellow scientists from University of California Los Angeles (UCLA) have been working for two years on SeaChange.

Floating in the port of Los Angeles, a strange-looking barge covered with pipes and tanks contains a concept that scientists hope to make waves: a new way to use the ocean as a vast carbon dioxide sponge to tackle global warming.

Scientists from University of California Los Angeles (UCLA) have been working for two years on SeaChange—an ambitious project that could one day boost the amount of CO2, a major greenhouse gas, that can be absorbed by our seas.

Their goal is “to use the ocean as a big sponge,” according to Gaurav Sant, director of the university’s Institute for Carbon Management (ICM).

The oceans, covering most of the Earth, are already the planet’s main carbon sinks, acting as a critical buffer in the climate crisis.

They absorb a quarter of all CO2 emissions, as well as 90 percent of the warming that has occurred in recent decades due to increasing greenhouse gases.

But they are feeling the strain. The ocean is acidifying, and rising temperatures are reducing its absorption capacity.

The UCLA team wants to increase that capacity by using an electrochemical process to remove vast quantities of CO2 already in seawater—rather like wringing out a sponge to help recover its absorptive power.

“If you can take out the carbon dioxide that is in the oceans, you’re essentially renewing their capacity to take additional carbon dioxide from the atmosphere,” Sant told AFP.

At the port of Los Angeles, a strange-looking barge covered with pipes and tanks contains a concept that hopes to help tackle gl
At the port of Los Angeles, a strange-looking barge covered with pipes and tanks contains a concept that hopes to help tackle global warming.

Trapped

Engineers built a floating mini-factory on a 100-foot (30-meter) long boat which pumps in seawater and subjects it to an electrical charge.

Chemical reactions triggered by electrolysis convert CO2 dissolved in the seawater into a fine white powder containing calcium carbonate—the compound found in chalk, limestone and oyster or mussel shells.

This powder can be discarded back into the ocean, where it remains in solid form, thereby storing CO2 “very durably… over tens of thousands of years,” explained Sant.

Meanwhile, the pumped water returns to the sea, ready to absorb more carbon dioxide from the atmosphere.

Sant and his team are confident the process will not damage the marine environment, although this will require further testing to confirm.

A potential additional benefit of the technology is that it creates hydrogen as a byproduct. As the so-called “green revolution” progresses, the gas could be widely used to power clean cars, trucks and planes in the future.

Chemical reactions triggered by electrolysis convert CO2 dissolved in the seawater into a fine white powder containing calcium c
Chemical reactions triggered by electrolysis convert CO2 dissolved in the seawater into a fine white powder containing calcium carbonate — the compound found in chalk, limestone and oyster or mussel shells.

Of course, the priority in curbing global warming is for humans to drastically reduce current CO2 emissions—something we are struggling to achieve.

But in parallel, most scientists say carbon dioxide capture and storage techniques can play an important role in keeping the planet livable.

Carbon dioxide removal (CDR) could help to achieve carbon neutrality by 2050 as it offsets emissions from industries which are particularly difficult to decarbonize, such as aviation, and cement and steel production.

It could help to tackle the stocks of CO2 that have been accumulating in the atmosphere for decades.

‘Promising solution’

Keeping global warming under control will require the removal of between 450 billion and 1.1 trillion tons of CO2 from the atmosphere by 2100, according to the first global report dedicated to the topic, released in January.

Engineers built a floating mini-factory on a 100-foot (30-meter) long boat which pumps in seawater and subjects it to an electri
Engineers built a floating mini-factory on a 100-foot (30-meter) long boat which pumps in seawater and subjects it to an electrical charge.

That would require the CDR sector “to grow at a rate of about 30 percent per year over the next 30 years, much like what happened with wind and solar,” said one of its authors, Gregory Nemet.

UCLA’s SeaChange technology “fits into a category of a promising solution that could be large enough to be climate-relevant,” said Nemet, a professor at the University of Wisconsin-Madison.

By sequestering CO2 in mineral form within the ocean, it differs markedly from existing “direct air capture” (DAC) methods, which involve pumping and storing gas underground through a highly complex and expensive process.

Pumped water returns to the sea, ready to absorb more carbon dioxide from the atmosphere
Pumped water returns to the sea, ready to absorb more carbon dioxide from the atmosphere.

A start-up company, Equatic, plans to scale up the UCLA technology and prove its commercial viability, by selling carbon credits to manufacturers wanting to offset their emissions.

In addition to the Los Angeles barge, a similar boat is currently being tested in Singapore.

Gaurav Sant hopes far larger plants will be capable of removing 'thousands of tons of carbon' each year
Gaurav Sant hopes far larger plants will be capable of removing ‘thousands of tons of carbon’ each year.

Sant hopes data from both sites will quickly lead to the construction of far larger plants that are capable of removing “thousands of tons of carbon” each year.

“We expect to start operating these new plants in 18 to 24 months,” he said.

© 2023 AFP

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‘Big sponge’: new CO2 tech taps oceans to tackle global warming (2023, April 17)
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