These modules enable projects to quantify the carbon dioxide removals resulting from direct air capture (DAC) projects.
With the publication of the modules VMD0056 CO2 Capture from Air (Direct Air Capture), VMD0057 CO2 Transport for CCS Projects, and VMD0058 CO2 Storage in Saline Aquifers and Depleted Hydrocarbon Reservoirs, Verra’s CCS methodology is now operational and can be used by projects to deliver real, additional, and high-integrity emission removals globally.
VM0049 and the modules arrive as CCS and, specifically, technological carbon dioxide removal (CDR) have an increasingly important role in mitigating the disastrous effects of climate change. Finance generated by carbon credits can help scale this sector and accelerate its development.
“With the release of the direct air capture with carbon storage (DACCS) modules, Verra offers another important pathway for catalyzing finance for projects that advance critically needed climate action," said Mandy Rambharos, CEO, Verra.
"We urgently must advance all those possible pathways, whether technology- or nature-based, that avoid, reduce, or remove emissions. The carbon capture and storage methodology and the associated modules also stand out for their flexible and scalable approach that will enable them to amplify their climate impact.“
The framework will also allow emissions accounting in collaborative CCS hubs where VCS projects include only a portion of the captured carbon. This makes VM0049, along with the related modules, the first global methodology that allows and encourages collaborative CCS hubs and shared infrastructure for the efficient and scalable deployment of multiple CCS technologies.
VM0049 and the associated modules were developed by the CCS+ Initiative (external) and Verra.