Since the start of the industrial revolution, humanity has increased
atmospheric carbon dioxide (CO2) by 50
percent.
The IPCC has made it
clear
that decarbonization on its own is not enough to prevent the planet from warming
to uninhabitable temperatures; and if we are to limit global temperature rise to
1.5°C, approximately six billion tons (gigatons) of CO2 needs to be removed from
the atmosphere per year by 2050. Therefore, we must not only decarbonize as many
activities as possible — we must also find ways to recapture the carbon that has
already been emitted into the atmosphere.
London-based Brilliant Planet has a
suitably brilliant solution: The company has found a way to sequester carbon at
the gigaton scale with algae — an affordable and scalable method for removing
carbon permanently from the air.
“Algae has a phenomenal capacity to remove carbon dioxide: It absorbs about as
much carbon as all the plants and
trees
on land combined,” Brilliant Planet co-founder Raffael
Jovine told
Sustainable Brands®. Jovine has a PhD in molecular biochemistry and has
worked at MIT and Woods Hole Oceanographic Institute, living and
breathing algae for a decade all over the world. ”Algae are inherently more
efficient carbon-removal machines than terrestrial plants as they don’t spend
biological resources on building a supporting infrastructure of trunks, roots
and branches — their entire surface area is dedicated to photosynthesis.”
Founded in 2013, Brilliant Planet has spent over a decade researching algae and
developing its proprietary production process. Fundamental insights from R&D and
a wealth of real-world findings from pilot projects means it is now ready to
deploy commercial operations globally.
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The process works by growing marine microalgae in large, controlled, outdoor
ponds on coastal desert land — using nutrient-rich seawater and sunlight as
input. As the organisms rapidly develop and replicate, they are moved into
progressively larger enclosures up to the point of harvest.
As Jovine explains: “The exponential growth rate of the algae means that they
rapidly transition from being housed in a single beaker of inoculant in the
greenhouse on day one to filling four 12,000m^2^, open-air ponds during the final
phases of growth. Fine-mesh filters are used to separate the biomass completely
from purified seawater before it is solar-dried in the open desert air.”
When the algae are solar-dried, the moisture content drops below the level where
biological degradation would be possible. In addition, the dried biomass is
extremely salty (20-40 percent salt content), which creates a moisture barrier.
Burying the dried biomass 1-4 meters below the desert surface ensures it remains
stable for thousands of years, locking in the sequestered carbon.
“Our digital platform reacts precisely to the real-time status of the algae,
with only a few basic low-cost inputs from each pond and public weather
information. Commercially, this has been the real breakthrough,” explained CEO
and co-founder Adam Taylor, who has
spent the last 10 years building a vertically integrated group of aquaculture
companies in Sub-Saharan Africa.
Brilliant Planet’s solution also deacidifies the discharged seawater; its high
alkalinity, relative to its surroundings, means that it quickly equilibrates
with the atmosphere — absorbing CO2 and facilitating the growth of shell-forming
organisms. For every unit of water that passes through the system, the
equivalent of five units of water is deacidified to pre-industrial pH levels.
“The elegance of this system's effective, low-cost process relies on the intense
understanding of algae photophysiology,” Jovine explains. “It’s critical to
consider the co-benefits of CDR [carbon-dioxide removal] solutions and how they
contribute to a just transition. By the nature of our solution, we’re able to
contribute to coastal restoration and deacidification — as well as economic
development in areas that don’t have a lot of other opportunities.”
Brilliant Planet believes that coastal deserts are ideal locations to develop
its facilities. The team has operated pilots across varied climates including
South Africa, Oman and Morocco. At each location, they start by
bioprospecting for suitable local strains of algae to maximize the use of
strains that are already well-adapted to growing in the local conditions. Using
local strains also protects against contamination in the area.
“Deserts are large, dry and barren — which means we never compete with natural
biomass or food-growing land. Size offers us the potential for tremendous scale;
the world’s hot deserts are the size of the US and Europe, combined,”
Taylor says. “Using a GIS
model to sort for site
characteristics — for example, flat land — we’ve identified a shortlist of
around half-a-million square kilometers of suitable desert; that’s about 2
gigatons per year of carbon-removal potential.”
Brilliant Planet is set to start building a 30-hectare demonstration facility
later this year, before constructing a 1,000-hectare commercial-scale facility
that will remove 100,000 tons of CO2 from the atmosphere per year. The team has
recently received $12 million in series A funding — co-led by Union Square
Ventures and Toyota Ventures
— with other investors including Future Positive Capital, AiiM Partners,
S2G Ventures, Hatch and Pegasus Tech Ventures.
“We envision a future with a large, but feasible, number of algal-sequestration
facilities globally. Our scalable, modular platform has no limiting factors such
as chemical inputs or freshwater availability. At the scale of a gigaton of CO2,
Brilliant Planet would start to look like an infrastructure technology provider,
similar to a solar panel or wind turbine manufacturer,” Taylor explains. “It’s
time to get algae on the radar. Everyone talks about the trade-offs between
planting trees and direct air capture — we believe that algae is the best of
both worlds!”
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Scarlett Buckley is a London-based freelance sustainability writer with an MSc in Creative Arts & Mental Health.
Published Feb 13, 2023 7am EST / 4am PST / 12pm GMT / 1pm CET