skip to primary navigationskip to content

Collaborating on carbon capture and storage

last modified Nov 19, 2018 03:23 PM
Cambridge Earth Sciences is part of a global project researching new sites for carbon capture and storage (CCS), supported by leading multinational minerals and energy company BHP.
Collaborating on carbon capture and storage

Prof. Mike Bickle carrying out fieldwork in Utah

CCS is one way to tackle rising atmospheric carbon levels which contribute to climate change. While fossil fuels continue to be burned, long term storage of the CO2 underground looks to be an important way to prevent further increases in atmospheric carbon, or even to start to remove and draw down existing CO2 out of the atmosphere.

The new project with BHP will study long-term CO2 sequestration at Otway, Australia. Professor Mike Bickle and Dr Jerome Neufeld in the Department of Earth Sciences will work alongside academics at Stanford and Melbourne to study how CO2 interacts with porous rocks. They aim to identify new sites across the globe where CCS may be implemented.

Previous work in the Department has helped better understand CCS through studies of existing sites (Sleipner, North Sea) and natural analogues (Green River, Utah). Until now, most CCS schemes have worked by cooling and liquefying the gas before pumping it in to geological formations, saline aquifers or disused oil and gas fields. This gas then needs to be securely trapped underground, usually by a layer of thick non-porous "cap" rock.

The new collaboration aims to identify many more sites where CO2 could be safely and securely trapped without this cap layer. CCS deployment at more sites would help reduce emissions, but is heavily dependent on government policy and economics keeping pace with technical innovation.

Carbon capture: universities and industry work together to tackle emissions