Assessing the European potential for geological storage of CO 2 : the GESTCO project
Niels Peter Christensen,Michael Larsen +1 more
- Vol. 4, pp 13-16
TLDR
The European potential for the Geological Storage of CO2 from fossil fuel combustion (GESTCO) project as discussed by the authors was the first effort to evaluate the potential of underground CO2 storage in Europe.Abstract:
GESTCO is an acronym for European potential for the Geological Storage of CO2 from fossil fuel combustion. The project formed part of the ENERGIE Programme of the European Union 5th Framework and was concluded in 2003. The Geological Survey of Denmark and Greenland (GEUS) led the project, with the national geological surveys of Belgium, France, Germany, Greece, the Netherlands, Norway and UK as research partners (Fig. 1). The primary goal of the GESTCO project was to determine whether the geological storage of carbon dioxide captured at large industrial plants is a viable method of reducing greenhouse gas emissions in Europe (Christensen 2000; Gale et al. 2001; Christensen & Holloway 2003). This was evaluated by a series of case studies that assessed the CO2 storage potential of saline aquifers, geothermal reservoirs, coal seams and oil and gas reservoirs. The case study approach was used so that currently available, largely theoretical, generic information could be applied to real geological situations. In addition aspects of safety and environment, conflicts of using underground space and public and stakeholder perception were evaluated. Secondary goals of the GESTCO project were to establish an inventory of major CO2 point sources in Europe and a Decision Support System (DSS) to serve as an economic analysis tool for CO2 storage in Europe. Inventory of large CO2 point sources Major industrial sources of CO2 in the participating countries were identified and compiled into a database. In almost all countries, the major sources of CO2 are power plants,read more
Citations
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Journal ArticleDOI
Have We Overestimated Saline Aquifer CO2 Storage Capacities
S. Thibeau,V. Mucha +1 more
TL;DR: In this article, the authors review some major global and regional assessments of CO2 storage capacities in deep saline aquifers, in terms of mass and storage efficiency, based on a volumetric approach.
Journal ArticleDOI
Optimal use of a dome-shaped anticline structure for CO2 storage: a case study in the North German sedimentary basin
TL;DR: In this article, the authors assessed strategies for maximizing storage of CO2 using as hypothetical but realistic storage site a typical anticline structure in the North German sedimentary basin, and investigated the effects of well number, location, spacing and alignment, using fracture pressure and containment of CO 2 within the anticline as constraining factors.
Optimal Use of a dome shaped anticline structure for CO2 storage: A case study for the North German sedimentary basin
A. Mitiku,S. Bauer +1 more
Journal ArticleDOI
Challenges and enablers for large-scale CO2 storage in chalk formations
Maria Bonto,Michael J. Welch,Mikael Lüthje,S.I. Andersen,Moein Jahanbani Veshareh,Frédéric Amour,Armin Afrough,Rasoul Mokhtari,M. R. Hajiabadi,M.R. Alizadeh,C.N. Larsen,Hamidreza M. Nick +11 more
TL;DR: In this paper, the authors reviewed existing studies on CO2 injection in chalk to address the suitability of this type of formation for CCS, and analyzed the relevance of different trapping mechanisms (e.g., solution, capillary, and mineral) but also several effects (i.e., chemical, biological, mechanical) that can lead to loss of injectivity.
Subsurface geological setting in the Skagerrak area : suitability for storage of carbon dioxide
TL;DR: The Skagerrak area is characterized by thick sedimentary sequences of Cambrian- Cretaceous age of which the Paleozoic sequences are severely faulted following Variscan orogeny related tectonism as discussed by the authors.
References
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Journal ArticleDOI
Demonstrating the Potential for Geological Storage of CO2: The Sleipner and GESTCO Projects
TL;DR: Two projects are now under way in the European Union to assess the potential CO2 storage capacity of the main sedimentary basins within Europe, known as GESTCO, which will examine in detail the geological storage potential and coincidence of CO2 emission sources to storage sites.
Book
The Underground Disposal of Carbon Dioxide: Final Report
Sam Holloway,Christopher A. Rochelle,Keith Bateman,Jonathan Pearce,Heather Baily,Richard Metcalfe +5 more
TL;DR: In this paper, the potential for reducing CO2 emissions to the Earth's atmosphere from fossil fuel fired power plant by disposing of this CO2 underground is examined, with a detailed study of the technical and economic optimisation of C02-removal in a lignite-firedIGCC power plant.
Book ChapterDOI
A CO2-Infrastructure for Eor in the North Sea (Cens): Macroeconomic Implications for Host Countries
TL;DR: The CO2 for enhanced oil recovery (EOR) in the North Sea (CENS) Project offers the host nations a unique opportunity for securing future energy supplies while developing sustainable solutions in response to the challenge of climate change and compliance with their Kyoto commitments as mentioned in this paper.
Journal ArticleDOI
Geothermal energy in Denmark
TL;DR: The Geological Survey of Denmark and Greenland (GEUS) has for many years been involved with research, advisory and consultancy services concerning the assessment of the geothermal energy potential in Denmark, in close cooperation with private and public partners.
Book ChapterDOI
Saline Aquifer Storage of CO2 from Major Point Sources — A Danish Case Study
TL;DR: In this paper, the authors present data for a possible future aquifer storage site in Denmark and evaluate the entire CO2 sequestration system including nature and characteristics of the geological structure, CO2 point sources, transport, and injection system.