Launched in 2015, the NRG COSIA Carbon XPRIZE was a five-year global competition developed to address rising CO₂ emissions by challenging innovators around the world to develop breakthrough technologies that convert the most CO₂ into products with the highest net value.

Recently, XPRIZE, the global leader in designing and implementing innovative competition models to solve the world’s grandest challenges, has announced that CarbonCure Technologies and CarbonBuilt have won the US$20M NRG COSIA Carbon XPRIZE, a prize that set out to convert CO₂ emissions into valuable products.

Selected by a panel of independent judges, both winning teams developed solutions aimed at reducing CO₂ emissions associated with traditional concrete, which is currently the world’s most abundant human-made material and accounts for 7% of all global CO₂ emissions.

The competition included two tracks, the Wyoming track that focused on the conversion of emissions from a nearby coal-fired power plant, the Wyoming Integrated Test Center in Gillette, WY, and the Alberta track which used emissions from an adjacent natural gas-fired plant, the Alberta Carbon Conversion Technology Centre in Calgary, AB.

The winning teams, one from each track, converted the most CO₂ into products with the highest value, while minimizing their overall CO₂ footprint, land use, water use, and energy use.

CarbonCure Technologies, the Alberta track winner from Canada, demonstrated a technology which enabled the production of concrete with a reduced water and carbon footprint without sacrifice to the material’s reliability.

Members of the prize-winning Carbon Cure team onsite in Calgary, Canada.

Utilizing CarbonCure Technologies’ system, a precise dosage of CO₂ is injected into a concrete plant’s reclaimer system, which contains the water used to wash out concrete trucks and mixers. The CO₂ is converted to a permanently embedded mineral with strength-enhancing properties which can then be incorporated into new concrete mixes.

By reducing the amount of new freshwater, solid waste disposal and cement required, the team, which is backed by Bill Gates’ fund Breakthrough Energy Ventures, Amazon Climate Pledge Fund, BDC Capital and others, is able to reduce the material costs and increase profitability for concrete producers.

“I’m incredibly proud of Team CarbonCure’s hard work, dedication, and ingenuity that contributed to our win. The prize winnings will accelerate our path to achieve our company mission of reducing 500 megatonnes of CO₂ emissions annually by 2030,” said Jennifer Wagner, president of CarbonCure and team lead for the competition.

The Los Angeles-based Wyoming track winner, UCLA CarbonBuilt, developed technology that reduces the carbon footprint of concrete by more than 50% while reducing raw material costs and increasing profitability.

Gaurav Sant, from UCLA Carbon Built team, holds samples of low-carbon concretes. (Photo: UCLA Samueli School of Engineering)

UCLA Carbon Built demonstrated its technology by producing concrete blocks with each store three-quarters of a pound of CO2. (Photo: UCLA Samueli School of Engineering)

The CarbonBuilt concrete formulation significantly decreases the need for ordinary Portland cement while enabling the increased use of low-cost waste materials. During the curing process, CO₂ is directly injected from flue gas streams (like power plants or cement factories) into the concrete mixture where it is chemically transformed and permanently stored.

Development began at the UCLA Samueli School of Engineering in 2014 with support from the NRG COSIA CARBON XPRIZE, philanthropic foundations, private and corporate sponsors, as well as government agencies including the U.S. Department of Energy.

“To have spent the last decade finding a solution to mitigate the carbon footprint of concrete construction with a phenomenal team, and to have won the NRG COSIA Carbon XPRIZE doing so is an ultimate dream come true,” commented Gaurav N. Sant, professor of civil and environmental engineering and of materials science and engineering at UCLA Samueli.

Additionally, the USD $20M NRG COSIA Carbon XPRIZE awarded X-Factor awards to Carbon Upcycling-NLT and Carbon Corp, two finalists that created very good products and compelling demonstrations that deserved recognition.

Carbon Upcycling-NLT, based in Calgary, produces nanoparticles with applications in various industries, particularly concrete, construction and plastics.

Carbon Corp, who relocated from the USA to Calgary, transforms CO₂ into carbon nanotubes, with applications such as lightweight, ultra-strong and cost-effective replacements for metals; stronger cement-composite building materials; and expanding applications in industrial catalysis, batteries, and nanoelectronics.

Launched in 2015, the NRG COSIA Carbon XPRIZE was a five-year global competition developed to address rising CO₂ emissions by challenging innovators around the world to develop breakthrough technologies that convert the most CO₂ into products with the highest net value.

Recently, XPRIZE, the global leader in designing and implementing innovative competition models to solve the world’s grandest challenges, has announced that CarbonCure Technologies and CarbonBuilt have won the US$20M NRG COSIA Carbon XPRIZE, a prize that set out to convert CO₂ emissions into valuable products.

Selected by a panel of independent judges, both winning teams developed solutions aimed at reducing CO₂ emissions associated with traditional concrete, which is currently the world’s most abundant human-made material and accounts for 7% of all global CO₂ emissions.

The competition included two tracks, the Wyoming track that focused on the conversion of emissions from a nearby coal-fired power plant, the Wyoming Integrated Test Center in Gillette, WY, and the Alberta track which used emissions from an adjacent natural gas-fired plant, the Alberta Carbon Conversion Technology Centre in Calgary, AB.

The winning teams, one from each track, converted the most CO₂ into products with the highest value, while minimizing their overall CO₂ footprint, land use, water use, and energy use.

CarbonCure Technologies, the Alberta track winner from Canada, demonstrated a technology which enabled the production of concrete with a reduced water and carbon footprint without sacrifice to the material’s reliability.

Members of the prize-winning Carbon Cure team onsite in Calgary, Canada.

Utilizing CarbonCure Technologies’ system, a precise dosage of CO₂ is injected into a concrete plant’s reclaimer system, which contains the water used to wash out concrete trucks and mixers. The CO₂ is converted to a permanently embedded mineral with strength-enhancing properties which can then be incorporated into new concrete mixes.

By reducing the amount of new freshwater, solid waste disposal and cement required, the team, which is backed by Bill Gates’ fund Breakthrough Energy Ventures, Amazon Climate Pledge Fund, BDC Capital and others, is able to reduce the material costs and increase profitability for concrete producers.

“I’m incredibly proud of Team CarbonCure’s hard work, dedication, and ingenuity that contributed to our win. The prize winnings will accelerate our path to achieve our company mission of reducing 500 megatonnes of CO₂ emissions annually by 2030,” said Jennifer Wagner, president of CarbonCure and team lead for the competition.

The Los Angeles-based Wyoming track winner, UCLA CarbonBuilt, developed technology that reduces the carbon footprint of concrete by more than 50% while reducing raw material costs and increasing profitability.

Gaurav Sant, from UCLA Carbon Built team, holds samples of low-carbon concretes. (Photo: UCLA Samueli School of Engineering)

UCLA Carbon Built demonstrated its technology by producing concrete blocks with each store three-quarters of a pound of CO2. (Photo: UCLA Samueli School of Engineering)

The CarbonBuilt concrete formulation significantly decreases the need for ordinary Portland cement while enabling the increased use of low-cost waste materials. During the curing process, CO₂ is directly injected from flue gas streams (like power plants or cement factories) into the concrete mixture where it is chemically transformed and permanently stored.

Development began at the UCLA Samueli School of Engineering in 2014 with support from the NRG COSIA CARBON XPRIZE, philanthropic foundations, private and corporate sponsors, as well as government agencies including the U.S. Department of Energy.

“To have spent the last decade finding a solution to mitigate the carbon footprint of concrete construction with a phenomenal team, and to have won the NRG COSIA Carbon XPRIZE doing so is an ultimate dream come true,” commented Gaurav N. Sant, professor of civil and environmental engineering and of materials science and engineering at UCLA Samueli.

Additionally, the USD $20M NRG COSIA Carbon XPRIZE awarded X-Factor awards to Carbon Upcycling-NLT and Carbon Corp, two finalists that created very good products and compelling demonstrations that deserved recognition.

Carbon Upcycling-NLT, based in Calgary, produces nanoparticles with applications in various industries, particularly concrete, construction and plastics.

Carbon Corp, who relocated from the USA to Calgary, transforms CO₂ into carbon nanotubes, with applications such as lightweight, ultra-strong and cost-effective replacements for metals; stronger cement-composite building materials; and expanding applications in industrial catalysis, batteries, and nanoelectronics.