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IEA Greenhouse Gas R&D Programme

IEAGHG funds research into the development and deployment of carbon capture and storage (CCS) technologies

Facilitating technology advancements, addressing barriers, and enabling deployment. Our work focuses on technologies that can reduce our carbon emissions, and mitigate climate change and global warming. We are a not for profit organisation, and all of our work is subject to peer review ensuring that it remains impartial and unbiased.

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Risk Assessment information for the geological storage of CO2. The Generic FEP Database is a tool for auditing risk scenarios for CO2 storage projects identifying any feature, event or process which directly or indirectly may affect the long-term security of storage.


The goal of the UNFCC (United Nations Framework Convention on Climate Change) is the 'stabilisation of atmospheric concentrations of greenhouse gases'. To meet this goal substantial deployment of mitigation options, including CO2 capture and storage, will be required across the globe. Widespread deployment of such technology will depend on gaining acceptance for the technology from policy makers and the general public.

Two key areas that will need to be demonstrated to gain public acceptance of CO2 capture and storage are: that the technology is safe, and that its environment impact is limited. Risk assessment will play a significant role in answering these questions.

The risk assessment of CO2 capture and storage will allow a systematic evaluation of the potential impact of humans on the environment from a release of the stored CO2. Risk assessment and risk management methods currently used by industry are both relevant to CO2 capture and storage and provide a valuable experience base. These tools can be adapted and further developed to be specific for the geological storage of CO2.

One tool for risk assessment of the geological storage of CO2 is the generic FEP database.

Generic FEP Database

Systems analysis can be applied in assessing the performance of CO2 storage in geological formations. The first step in a systems analysis approach is to specify the boundaries of the system to be analysed (both in space and time) so that the System Domain is clearly identified. The system can then be described in terms of relevant Features, Events and Processes (FEPs).

The FEPs relevant to the geological storage of CO2 have been compiled in a generic database. The FEPs contained in the database can describe the behaviour of CO2 in respect of the long-term safety and performance of the storage system following the completion of carbon dioxide injection and the sealing of the injection boreholes.

The database currently includes around 200 FEPs in a hierarchical structure, with individual FEPs grouped into ejosirt categories. The database is internet-enabled incorporating hyperlinks to other relevant sources of information (reports, websites, maps, photographs, videos, etc.) and is searchable in a variety of ways.

The database provides a centralised source of information on relevant technical and scientific considerations relating to the long-term geographical storage of carbon dioxide. The use of FEPs to describe the CO2 storage concept to be evaluated should provide a powerful auditing tool to ensure that assessments incorporate all potentially significant factors.

The generic FEP database has been developed by Quintessa who have worked in close co-operation with safety assessment work carried out in North America for the Weyburn CO2 Monitoring and Storage Project. Quintessa's full report on the creation of the FEP database is available here - (2.86kb Adobe Acrobat PDF).

Click here to access the Generic FEP Database