CDR Verification Framework Documentation
Docs: Pathway
Alkaline Waste Mineralization
VCL
3-5
Alkaline waste mineralization enhances the weathering process of alkaline waste streams (e.g. mine tailings or slag) to enhance the uptake and storage of atmospheric CO₂. Here, we specifically consider methods that primarily store atmospheric CO₂ in the form of solid carbonates. This pathway is VCL 3-5, meaning that current quantification capacity can establish permanent carbon removal, but that for certain approaches, significant uncertainties remain.
Version history
Apr 10 2023
v1.0
First release.
Acknowledgments
This framework has been shaped by input and feedback from external experts, including CDR companies, scientists, and other CDR ecosystem actors. Any remaining mistakes or mischaracterizations are the authors’ sole responsibility.
CDR Company
v1.0
Arca
Scientific Expert
v1.0
Liam Bullock (Geosciences Barcelona)
CDR Company
v1.0
Travertine
Scientific Expert
v1.0
Vikram Rao (Research Triangle Energy Consortium)
Alkaline Waste Mineralization
VCL
3-5
Alkaline waste mineralization enhances the weathering process of alkaline waste streams (e.g. mine tailings or slag) to enhance the uptake and storage of atmospheric CO₂. Here, we specifically consider methods that primarily store atmospheric CO₂ in the form of solid carbonates. This pathway is VCL 3-5, meaning that current quantification capacity can establish permanent carbon removal, but that for certain approaches, significant uncertainties remain.
Version history
Apr 10 2023
v1.0
First release.
Acknowledgments
This framework has been shaped by input and feedback from external experts, including CDR companies, scientists, and other CDR ecosystem actors. Any remaining mistakes or mischaracterizations are the authors’ sole responsibility.
CDR Company
v1.0
Arca
Scientific Expert
v1.0
Liam Bullock (Geosciences Barcelona)
CDR Company
v1.0
Travertine
Scientific Expert
v1.0
Vikram Rao (Research Triangle Energy Consortium)