BGS is recognised as a European centre of excellence for the study of carbon dioxide (CO2) storage, contributing to the Intergovernmental Panel on Climate Change (IPCC) special report. We have a dedicated CCS team active in a number of research areas including:
See our Discovering geology pages for an Introduction to carbon capture and storage (CCS)
The GeoEnergy Research Centre (GERC) is an independent, collaborative institution co-founded by two of the UK’s acknowledged pioneers in the fight against climate change; the British Geological Survey and the University of Nottingham.
Scottish Carbon Capture & Storage (SCCS) is a partnership between the British Geological Survey, Heriot-Watt University, the University of Edinburgh and the University of Aberdeen.
It is the UK’s largest CCS research group, with researchers engaged in projects and joint industry projects across the full CCS chain.
Visit the SCCS interactive 'Global CCS Map' which provides a world view of carbon capture and storage (CCS) projects. It holds information on projects of all scales and at all stages of development — planned and operating, and including cancelled projects of interest.
Developing a suitable regulatory framework for CO2 storage is a high priority, and BGS has a key technical advisory role, both in the UK and overseas. We have provided expert technical advice to policymakers in the UK and Europe who are responsible for regulating the deployment of CCS.
Members of the CCS Team also undertake a range of expert peer-reviews for a number of international CCS demonstration projects on behalf of governments or industrial project consortia. This is exemplified by the UK competition to build the first ‘full chain’ CCS system, where we are acting as technical advisors to the Department of Energy and Climate Change (DECC) in the bid evaluation process.
The large-scale application of carbon capture and storage may increase the use of Britain’s coal — a home-grown resource — in electricity generation, as well as allowing removal of CO2 from other major industrial sources like steelworks and refineries.
CCS technology can make a significant reduction in UK emissions if it were applied to a relatively small number of industrial plants. The UK’s major potential for long-term storage of CO2 is in:
In 2008 the CCS Team carried out the first assessment for geological CO2 storage for the whole of Ireland in a study lead by SLR consulting, Ireland (formerly the CSA Group) and funded by Sustainable Energy Ireland (SEI) and the Environmental Protection Agency (EPA).
The CCS Team has been involved in the following European research:
In 2008, the Best Practice Manual for the Storage of CO2 in Saline Aquifers was produced. This multi-partner volume, published by BGS, distils the findings of a number of recent European projects to summarise the latest understanding of storage site characterisation and operation.
The CCS Team is also active in China, in the COACH and NZEC projects, working with Chinese and European partners to identify opportunities and evaluate potential for geological storage of carbon dioxide in selected regions of north-east China. The BGS co-leads the geological storage work-package for NZEC alongside the China University of Petroleum (CUP, Beijing).
The CRIUS project (Carbon Research into Underground Storage) is a consortium funded by the Natural Environment Research Council (NERC), and involves scientists from the Universities of Cambridge, Manchester and Leeds and the British Geological Survey. The project is studying fluids and gasses from natural CO2 reservoirs and from sites where CO2 is being actively injected underground to:
The ultimate objective is to inform site assessment, risk and monitoring for geological carbon storage operations.
The QICS project (Quantifying and Monitoring Potential Ecosystem Impacts of Geological Carbon Storage) is a consortium lead by the Plymouth Marine Laboratory funded by the Natural Environment Research Council (NERC). The British Geological Survey is involved on this three year project to investigate the nature and probability of leakage from a geological storage site. The project will inform operational and risk assessment procedures for future CCS installations.
Contact Dr Andy Chadwick for further information