Advanced BioFuels USA

(Heirloom Carbon) …  There is only one location big enough to permanently store the 6–10 billion tons of CO2 the world needs to be capturing from the atmosphere each year by 2050 to mitigate the worst impacts of climate change — and that’s deep underground in geological reservoirs. There’s 506 billion tons of accessible pore space for permanent CO2 storage in the US alone — more than enough for us to mitigate the worst of climate change over the next few centuries.

Digging deeper into wells

In the US, the Environmental Protection Agency (EPA) has created a category of wells specifically for CO2 storage — known as Class VI wells. The EPA sets stringent permitting and monitoring requirements to ensure that these wells are safe and protect underground sources of drinking water.

Underground CO2 storage is a long-standing practice that is very well understood. Since the early 1970s, CO2 has been stored in wells, and then injected into oil-bearing formations to recover residual oil and natural gas. The EPA permits and regulates these oil and gas injection wells (known as Class II wells), and there are currently over 180,000 active today in the US. It is important to note that Heirloom strongly believes in a future powered by renewables, and so no CO2 we capture will ever be used for enhanced oil recovery.

Aside from Class II wells, a number of monitoring technologies and advanced modeling techniques have proven highly effective at de-risking permanent CO2 storage projects across various geological conditions and environments around the world.

In the US, research gathered by the Illinois Basin-Decatur Project — a project funded by the U.S. Department of Energy — National Energy Technology Laboratory — showed that CO2 can be safely and securely stored underground at commercial scale. From 2011–2014, ~1 million metric tons of CO2 were sequestered into a saline reservoir in Decatur, Illinois and rigorous post-injection monitoring was conducted over a decade to demonstrate safe and effective storage. In Norway, 20 years worth of monitoring data have been accumulated at the Sleipner CO2 injection site, with all injected CO2 still remaining locked underground. Additionally, Europe-based project ENOS demonstrated the safety, operability, and impact of geological storage at several sites in Italy, Spain, and the UK.

Scientists and engineers have developed additional innovative methods for permanent geologic storage. Heirloom’s XPRIZE partner Carbfix has developed a process whereby CO2 is injected alongside water into carefully selected rock formations to form solid carbonate minerals.

The future of Class VI wells

The legacy of oil and gas drilling has left communities concerned about the impact of new wells on the health and safety of their communities and natural environment. Environmental justice must be an integral part of the future of Class VI well siting and development. All people regardless of race, color, national origin, or income have the right to shape the future of carbon removal. Early and consistent stakeholder engagement and input will empower communities and set the future of Class VI wells up for success.

Heirloom will look to partner with companies that have decades of experience in well development and CO2 injection. Today, most of that expertise lies in the oil and gas sector, but we hope that in time, new developers without connections to extractive industries will enter onto the landscape. We will advocate for policies and incentives that will bring about this change in the ecosystem.

Well-selected and well-managed geological storage sites that are designed with community input will put us on a path towards a truly just and equitable climate future.  READ MORE

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