May 23, 2022

Sure, you can run machines to make the air carbon-free, but what’s the point in inviting Mother Nature to do the job for you? Brilliant Planet does just that: By using sea water and mimicking the right growing conditions for algae blooms, the company has created ideal conditions for low-cost carbon capture.

“You may have noticed that the IPCC report came in yesterday – if you’ve read the IPCC report, you know we missed the point where we can change your behavior and reduce CO2 emissions.2 The output we need to remove carbon from the atmosphere is the carbon we have already put in there. It is becoming increasingly important to have other ways to keep carbon in the atmosphere at manageable levels in order to limit global warming. Ideally, we would just change our behavior, we would immediately become fully electric, but this takes time,” said Brilliant Planet CEO Adam Taylor in an interview with gaming-updates. “It takes time for people, governments and companies to change, and we have to do something about it.”

And that’s exactly what Brilliant Planet does: use algae. The company believes that there are many aspects to reducing carbon emissions – protecting forests, etc. – but there are also problems; Especially around the price. He wants to get a ton of CO2 from the atmosphere for less than $50.

Brilliant Planet reveals the potential of algae as a low-cost method for sustainable and measurable gigaton-scale carbon capture. The company’s innovative processes allow microalgae to grow in large numbers in open-air pond systems on coastal desert lands. This is achieved without the use of fresh water, using a natural process that promotes the health of the oceans and air.

The process is mostly solar-powered, as the algae are powered efficiently by the sun, but also requires pumps to move to move the seawater. The method has two advantages; Unlike some other competitors, the CEO is very careful not to name it, the company does not use fresh water in its process, but sea water is used in the process.

“We need to pump a huge amount of seawater, and that takes energy, but we’ve done a lot of design work to make the system extremely energy efficient. Thus, gravity flows from one body of water to another through most of the system. We partner with the University of Southampton to optimize every aspect of paddle wheels and ponds. It took a lot of time and effort to bring these energy costs down, but essentially we need to bring water from the ocean to a few meters above sea level,” explains Taylor. “When we do this, we make this sea water deaf. So for every unit of seawater we bring in, we send the equivalent of five units of seawater back to pre-industrial levels. ,

After four years of testing at its 3 ha research facility in Morocco, Brilliant Planet will use Series A round proceeds to prepare for the construction of a 30 ha commercial demonstration facility while continuing its foundational R&D program in London.

“By using deserts and seawater that would otherwise be unaffected, our solution creates a ‘new’ net primary productivity. In other words, we are using underused natural resources to grow new biomass and absorb excess carbon dioxide,” said Rafael Jovin, chief scientist and co-founder of Brilliant Planet. “Per unit area, this approach captures 30 times more carbon per year than rainforests and also depletes local coastal marine waters to pre-industrial levels.”

The company today announced that it has closed $12 million in Series A funding. The round was jointly organized by Union Square Ventures and Toyota Ventures. Other and subsequent investors include Future Positive Capital, AIIM Partners, S2G Ventures, Hatch and Pegasus Tech Ventures.

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