The Canterhill Carbon Project

Our Solution to the Climate Crisis

We have a multi-faceted solution to the climate crisis that we believe can make a significant impact on our global CO₂ levels.

Our solution includes:

Creating a global network of our bioreactors

Creating a global carbon credit marketplace to trade carbon credits

We will be utilizing multiple technologies to create the most effective network possible at capturing the excess CO₂ in our air. Our solution is viable, scalable and achievable within a short period of time.

the climate crisis

The Problem: Climate Change

Global warming is the biggest issue we need to solve today.
Climate change is a global problem that requires a global solution.
The future of generations to come hinge on our ability to solve this problem urgently.
Current attempts to solve climate change have thus far come short of a truly global solution to fix this problem. A giant Direct Air Capture (DAC) farm in Wyoming, for example, will have a negligible effect in reducing CO₂ levels in Brazil, India or China.
The desire to remedy this problem is evident everywhere, but no one has yet to propose a truly global and viable solution; until now.

We can see the effects of climate change all around us.

Examples include:

extreme weather events
record-breaking heat leading to forest fires and crop loss
warming oceans leading to longer and stronger hurricane seasons and flooding
rising sea levels threatening coastal cities around the world
climate refugees

The Solution: The Canterhill Carbon Project

We have the ability to tackle this problem and apply our solution more efficiently than any other projects in this field.
We can implement our solution all around the world in a relatively short period of time and at a relatively low cost in order to tackle this problem everywhere all at once, globally and concurrently.
We have the most economically viable project to date.
We can effectively get to negative emissions globally by making the process of CO₂ removal from the atmosphere affordable and economically viable, while simultaneously tackling the problem at its source: in major cities around the world.

integrating multiple technologies

A global solution requires numerous different technologies working together.

The logistics of coordinating a global solution requires numerous different technologies working symbiotically in conjunction with each other.
We are merging several of the world’s leading technologies together seamlessly to create a solution that can not only solve the global quest to reach net zero emissions but has the potential to effectively reverse the global warming process as well.
By merging multiple technologies together, we have found the most viable, economically feasible and scalable solution to solve global warming on a global scale.

Technologies we are utilizing with our solution:

Direct Air Capture (DAC) Technology

to remove CO₂ from the atmosphere with our network of photobioreactors, enabling and optimizing algae's ability to capture CO₂ from the air through the process of photosynthesis

Nanotechnology

Direct Air Capture (DAC) Technology

to use microalgae to achieve efficient CO₂ fixation, thereby allowing for an increased concentration of dissolved CO₂ in the cultivation medium

Genetic Engineering

Direct Air Capture (DAC) Technology

Genetic Engineering

to custom design our genetically engineered algae in order to ensure algae's resilience in varying environments and to maximize its rate of CO₂ capture

3D Bioprinting

Artificial Intelligence

Genetic Engineering

to mass produce our microalgae with structural integrity designed to be inserted and removed from our bioreactors with ease

Artificial Intelligence

to ensure optimal conditions in our DAC Everywhere™ units and to control drone functions

Drone Technology

Artificial Intelligence

to service and maintain our DAC Everywhere™ units including harvesting of mature algae from the bioreactor

Blockchain Technology

Quality Carbon Credits

to create a highly secure, decentralized ledger that records and stores accurate and reliable information regarding the amount of CO₂ removed from the air by our network of bioreactors

Quality Carbon Credits

to generate the highest quality carbon credits through our own network of bioreactors with the creation of each carbon credit recorded on our proprietary blockchain for use on our digital exchange

Digital Exchange

Quality Carbon Credits

Digital Exchange

to create a transparent and reliable global carbon credit marketplace for carbon credit tokens that are tradable while ensuring that each carbon credit token can be redeemed only once as a carbon offset

Our Deployment Strategy

Working with Local Stakeholders for Each Deployment

Our project, by design, is meant to be integrated into communities around the world. We intend to work with locals, including local governments, indigenous communities, municipalities, local businesses, and local universities to best determine how to integrate our bioreactors with existing infrastructure. As we develop our network of bioreactors in any given location, we will be generating numerous jobs that will benefit the local population, including jobs at our command center, our manufacturing facility, maintenance and support personnel, as well as the scientists and engineers needed in our research and development efforts.

Our project offers both a global and local solution to the crisis. By thinking big and building small, we are building little machines that can be integrated into cities around the globe. Our project provides a global solution with local implementation; when built to scale, we will have local networks in thousands of cities around the world. Our ability to build locally, working closely with local communities, empowers the individual to participate in a global solution for climate change unlike any other project out there.

Working with the Next Generation of Innovators

Collaborating with Local Universities

With every deployment in various different cities around the world, we plan to work with one or more local universities with our initial deployment at that location. We would like to engage the best and brightest the local population has to offer to further our project and improve our ability to remove even more carbon dioxide from the air. Working with local universities will give us invaluable insight into the needs of the local community, and the local climate, while providing the next generation hands-on experience and offering the next generation an integral part in our efforts to accelerate the planet to net zero.

A Global Solution with Local Benefits

Benefitting the Local Community with Each Deployment

While our project will be deployed on a global scale, we are uniquely capable of customizing the deployment of each local network of bioreactors to address the needs of the local community.

The ability to gain the support of the public is integral to our mission and our values. As such, we will endeavor to work closely with each community where we deploy our network, to find the best ways to integrate our project into the local (urban) environment, and the best ways to utilize our algae byproducts without the need to transport these byproducts long distances, creating a circular economy with numerous benefits for the planet and the local community in which we are deployed. Working with each local community to find the best path for our project to support that community, the possibilities are truly endless.

Our Jakarta Pilot Project Deployment

We are working on our initial deployment in the city of Jakarta, Indonesia.

Each location we deploy in presents unique environmental-related challenges that need to be overcome. We will need to work with local populations to best determine the most effective deployment for that area. With our pilot project deployment in Indonesia, for example, there is high humidity and high temperatures; Indonesia’s tropical climate will present unique challenges, along with addressing the air and water quality in Jakarta.

Considering Local Environmental Conditions

We plan to work within the confines of the natural, geological, and environmental characteristics of each area in which we are deployed. Some examples specific to our Jakarta deployment follow.

Transforming Barren Lands

Burying our biomass into barren areas not suitable for farming can transform the land into fertile locations for future agricultural use, reducing the need for deforestation to make way for new farms.

Limestone Sequestration

Working within the confines of the local environment, we plan to find the best sequestration plan that would require the least amount of distance for our algae biomass to travel. For example, Indonesia has a lot of limestone deposits, specifically on the islands of Java and Sumatra, where we plan to do the majority of our Indonesian-based bioreactor deployments. As we plan to bury a significant portion of the algae biomass we generate in naturally occurring limestone deposits as part of our sequestration process, the convenience of local limestone deposits provide a local solution for our sequestration needs.

How We Benefit Jakarta Through Our Project

Our Impact on the Local Community

There are numerous ways in which our algae can be utilized to benefit the community in which we are deployed, with some examples specific to Indonesia listed below.

Fish Food

There is a large fishing industry in Indonesia, and we can provide algae-based fish food that is organic in nature, high in protein and nutrients.

Fertilizer

Indonesian farmers need fertilizer and the biomass we generate from our carbon capture process can be utilized as fertilizer for local farmers. Our fertilizer can replace more expensive chemical-based fertilizers that can adversely affect the environment.

Reducing the Carbon Footprint of Cement Manufacturing

Our project has the added benefit of potentially reducing the carbon footprint of Indonesia’s cement industry.

In Summary

Our project not only removes carbon dioxide from the air, but has the capability of addressing targeted needs of local communities and supporting ecosystems and biodiversity in the process.

what others are doing

Algae Farms and DAC Facilities in the Desert and other Remote Areas

Centralized solutions, at any given location, are subject to catastrophic failure
Vulnerable to maintenance issues, sabotage, or even extreme weather events and natural disasters
Requires large amounts of startup capital and land
Placed in areas where little CO₂ is being generated
A localized solution to a global problem

Tree Farms / Reforestation

Requires large amounts of land
Vulnerable to extreme weather events and forest fires exacerbated by climate change itself
Trees do have the ability to absorb more CO₂ from the air as more of the gas is available, but they take decades to mature – Time We Do Not Have
Reforestation projects are naturally placed in areas where little CO₂ is being generated
Yet another localized solution to a global problem

what makes our solution different

Thinking Big by Building Small

Instead of tackling this problem by building a large DAC facility, we are thinking big by building small, using small bioreactors to create a decentralized network with unlimited potential to scale. By thinking big and building small, our solution can be implemented globally in a short period of time, creating the world's first truly global network of carbon dioxide removal to help accelerate the world to its net zero goals.

Decentralized, Scalable & Truly Global by Design

By building small, we can deploy our network of bioreactors in thousands of different cities around the world, making our decentralized network a truly global solution to climate change.

We can effectively get to negative emissions globally by making the process of CO₂ removal from the atmosphere affordable, scalable, and economically viable, while simultaneously tackling the problem at its source: in major cities around the world.

Safe

We are merging proven technologies with the power of nature to remove CO₂ from the air. Our solution is safe for the environment.

Effective

Our solution is an effective tool in reducing carbon dioxide levels; through deployment of our bioreactors in densely populated areas around the world, we can effectively reduce carbon dioxide levels globally in a relatively short period of time, with results that will be measurable and verifiable.

Efficient

With our ability to integrate our network in cities around the world, we can tackle this problem and apply our solution more efficiently than any other projects in this field.

Innovative

By merging several of today’s leading technologies, our innovation is the utilization and repurposing of these technologies to create a comprehensive, global solution to the climate crisis.

Low-cost

We can implement our solution all around the world in a relatively short period of time and at a relatively low cost in order to tackle this problem everywhere all at once, globally and concurrently.

A Viable & Feasible Solution to Climate Change

Our project offers a practical, achievable short-, medium-, and long-term plan to capture carbon dioxide globally. With economy of scale, we have the most economically viable project to date.

Achievable

By thinking big and building small, we can build an additive global network of carbon dioxide removal on a scale unlike any other project out there. With each local deployment, the expansion of our network will increase our ability to take more and more carbon dioxide out from the air. Our solution offers a clear pathway to global net zero that is achievable in a shorter period of time and at a lower cost than current estimates suggest.

Job Creation

This project will generate thousands of new jobs, in various different sectors, worldwide.

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what makes our Network Revolutionary

Unlimited Scalability

Since we don't require large amounts of land or capital to expand our network, we can integrate our bioreactors into cities around the world, making our project practically unlimited in its ability to scale up.

The scalability of our project is unprecedented in the CO₂ removal industry.

Unlimited Global Impact

Our ability to deploy in thousands of sites around the world means we will have a global impact on CO₂ levels.

Benefitting Local Communities

With each deployment, we plan to work with local universities, government, businesses and other local stakeholders for their input and engagement with our project. Engaging the local population will help us determine how we can best deploy our network in each community. We plan to work with the local community to best determine how we utilize and/or sequester our algae byproducts, creating a circular economy tailormade to the needs of the community where we are deployed. Our primary goal with each deployment is to reduce the overall carbon footprint of that location.

Accelerating the World to Net Zero

By deploying our small Direct Air Capture (DAC Everywhere™) bioreactors in cities and towns around the world, we can potentially roll back centuries of damage in the next few decades.

We can theoretically reach global net zero with enough of our bioreactors online, bringing an equilibrium back to the global climate and giving humanity control over its CO₂ emissions.

In this way, we believe our project is capable of solving the climate crisis.

The Canterhill Carbon Project

Our Solution to the Climate Crisis

the climate crisis

The Problem: Climate Change

We can see the effects of climate change all around us.

The Solution: The Canterhill Carbon Project