Title
Second Generation CO2 FEP Analysis: CASSIF - Carbon Storage Scenario Identification Framework
Author
Yavuz, F.
van Tilburg, T.
David, P.
Spruijt, M.
Wildenborg, T.
TNO Bouw en Ondergrond
Publication year
2009
Abstract
Carbon dioxide Capture and Storage (CCS) is a promising contribution to reduce further increase of atmospheric CO2 emissions from fossil fuels. The CCS concept anticipates that large amounts of CO2 are going to be stored in the subsurface for the long term. Since CCS is a rather new technology, uncertainties related with the future evolution of a CO2 storage system should be addressed in a systematic framework. Performance and risk assessment frameworks are being created for the evaluation of the safeness and effectiveness of a CCS project. The recommended first step of this framework is a qualitative analysis, which encompasses the scenario analysis. The main goal of this step is to identify CO2 release scenarios, which can be supported by using a database of Features, Events and Processes (FEP), i.e. the elements that describe the characteristics and behaviour of the geological system. A qualitative FEP database tool assists to describe the storage concept and the factors which might influence the future behaviour of the storage reservoir and its surroundings. Scenario analysis using a FEP database is a crucial part of the risk assessment of a CCS project and has been applied to define release scenarios for a number of storage sites. However, further improvement is needed to facilitate a faster and more coherent analysis. For this purpose, a novel scenario analysis framework has been created, called Carbon Storage Scenario Identification Framework (CASSIF) (Yavuz et al., 2008 [1]). It is based on the three major CO2 release scenarios (well, fault and seal) from where the relevant events and processes are identified and modelled. Expert opinion is a key value within this framework. A questionnaire to be filled in by experts has been designed for the initial screening and ranking of events and processes. Features (static entities) have been separated from the events and process (the dynamic characteristics) so the focus in the expert elicitation will be on the latter. The new interface facilitates the online use of the FEP database. Together with real-time scenario formation, these improvements will greatly enhance the speed, transparency and comprehe nsiveness in the creation of subsurface CO2 release scenarios. © 2009 Elsevier Ltd. All rights reserved.
Subject
Geosciences
CO2 Storage
FEP Analysis
Qualitative Risk Assessment
Atmospheric CO
Carbon dioxide capture and storage
Carbon storage
CO Storage
Coherent analysis
Database tools
Dynamic characteristics
Expert elicitation
Expert opinion
FEP Analysis
Geological systems
Long term
New technologies
Online use
Qualitative analysis
Qualitative Risk Assessment
Risk assessment framework
Scenario analysis
Second generation
Storage reservoirs
Storage sites
Storage systems
Systematic framework
Carbon dioxide
Database systems
Fossil fuels
Quality control
Risk analysis
Risk management
Risk perception
Risk assessment
To reference this document use:
http://resolver.tudelft.nl/uuid:1ccf7158-6430-479e-99b6-ee8cf976fb3b
TNO identifier
241398
ISSN
1876-6102
Source
Energy Procedia, 1 (1), 2479-2485
Document type
article