HOLY GRAIL
We combine electrochemistry, modular CO2 scrubbers and above-ground storage to deliver the highest quality carbon credits available today
Our technology captures and stores CO2 permanently. We leverage an electrochemical reaction that enables our process to run on 100% renewable energy. Our CO2 storage method avoids the risks associated with underground mineralization and Class VI storage, therefore we are able to generate the highest quality carbon credits available today at a fraction of the cost
TECHNOLOGY
OUR PROCESS
Atmospheric air with CO2
Permanently stored CO2
Stacked blocks
Holy Grail CO2 Scrubber
Stored CO2 in solid blocks
Our scrubbers are designed for lean manufacturing and rapid deployment
Our modular scrubbers are stackable, and designed for low-cost mass production and rapid deployment. This modularity allows individuals and companies to directly remove CO2 from the atmosphere
MODULAR SCRUBBERS
The safest, most scalable and lowest environmental impact storage solution
Storing CO2 above the surface is the lowest environmental impact storage solution as it does not require underground drilling or core sampling. Our storage material exists in nature and is non-toxic
ABOVE GROUND CO2 STORAGE
The amount of CO2 that must be captured requires low footprint storage solution
Storing the total man-made CO2 emissions since the start of the industrial revolution using our technology would require a pyramid with a 17x17mi footprint. One megaton of captured CO2 requires less than 600x600ft of area of land
LAND REQUIREMENTS
17x17mi pyramid compared to Lake Tahoe
17x17mi pyramid compared to Lake Tahoe
Our technology was designed to simplify measurement, reporting, and verification and provide an extra layer of trust
Underground storage requires complex measurement, reporting, and verification (MRV) methods. Our above-ground storage method simplifies MRV and gives us, and our customers, real-time direct evidence of the stored CO2 and validity of our carbon credits
MRV
Why our technology is better than other direct air capture and CO2 storage methods
OUR ADVANTAGES
High Impact carbon removal
We combine direct air capture and above-ground mineral storage. Our technology is designed for real impact on atmospheric carbon dioxide levels, not greenwashing
Highest quality carbon credits
Our process creates value for customers and the planet by removing environmental and legal risks associated with low-quality carbon credits
Integrated CO2 permanent storage
Other companies rely on partners to store CO2 underground which create leakage, seismic, legal and environmental risks. Our technology completely avoids these risks
Transparent third-party MRV
Our captured CO2 is stored above-ground. This makes real-time monitoring simple and reliable, ensuring that captured carbon dioxide stays permanently stored
Low cost
Our technology is proven end-to-end with complete techno-economic analysis and Life Cycle Assessment. Our technology has the best unit economics in the space based on real data, not projections
Modular - really
Our modular scrubber can be stacked in centralized carbon capture facilities like servers are stacked in server farms or used at home and at work. Our scrubbers are not "shipping container-size modular", they are really modular
Scalable to 100 billion tonnes of CO2/year
Our technology has minimal environmental impact and is scalable to 100 billion tonnes per year without the need for mining or underground drilling
High Impact carbon removal
We combine direct air capture and above-ground mineral storage. Our technology is designed for real impact on atmospheric carbon dioxide levels, not greenwashing
Highest quality carbon credits, by far
Our process creates value for customers and the planet removing environmental and legal risks associated with low quality carbon credits
Integrated CO2 permanent storage
Other companies rely on partners to store CO2 underground which create leakage, seismic, legal and environmental risks. Our technology completely avoids these risks
Transparent third-party MRV
Our captured CO2 is stored above-ground. This makes real-time monitoring simple and reliable, ensuring that captured carbon dioxide stays permanently stored
Low cost
Our technology is proven end-to-end with complete techno-economic analysis and Life Cycle Assessment. Our technology has the best unit economics in the space based on real data, not projections
Modular - really
Our modular scrubber can be stacked in centralized carbon capture facilities like servers are stacked in server farms or used at home and at work. Our scrubbers are not "shipping container-size modular", they are really modular
Scalable to 100 billion tonnes of CO2/year
Our technology has minimal environmental impact and is scalable to 100 billion tonnes per year without the need for mining or drilling
FAQs
How do you make your reactant?
We make our reactant in-house from an abundant natural resource using a continuous electrochemical process
What happens inside the scrubber?
CO2 is drawn into the scrubber and brought into contact with our reactant. This enables a chemical reaction that directly produces our stable carbon-containing solid
Why do you store the solid in a pyramid?
Pyramids are one of the most stable shapes. The Great Pyramids of Giza in Egypt, have been around for 4,500 years. Pyramids reduce the footprint of our storage method, and they are an easy shape to build on a large scale as they can be built from cuboid blocks
Does the solid have any other potential applications?
Yes, the solid can potentially be used in construction. However, this makes monitoring more challenging. We will work on verification methods that enable accurate verification when the material is used for construction
What if I have other questions that aren't answered here?
Feel free to drop us a line at 2042@holygrail.ai with any other questions you have
How do you make your reactant?
We make our reactant in-house from an abundant natural resource using a continuous electrochemical process
What happens inside the scrubber?
CO2 is drawn into the scrubber and brought into contact with our reactant. This enables a chemical reaction that directly produces our stable carbon-containing solid
Why do you store the solid in a pyramid?
Pyramids are one of the most stable shapes. The Great Pyramids of Giza in Egypt, have been around for 4,500 years. Pyramids reduce the footprint of our storage method, and they are an easy shape to build on a large scale as they can be built from cuboid blocks
Does the solid have any other potential applications?
Yes, the solid can potentially be used in construction. However, this makes monitoring more challenging. We will work on verification methods that enable accurate verification when the material is used for construction
What if I have other questions that aren't answered here?
Feel free to drop us a line at 2042@holygrail.ai with any other questions you have