CO2-DISSOLVED: a Novel Concept Coupling Geological Storage of Dissolved CO2 and Geothermal Heat Recovery – Part 1: Assessment of the Integration of an Innovative Low-cost, Water- based CO2 Capture Technology-Reference-Cited by-同舟云学术

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CO2-DISSOLVED: a Novel Concept Coupling Geological Storage of Dissolved CO2 and Geothermal Heat Recovery – Part 1: Assessment of the Integration of an Innovative Low-cost, Water- based CO2 Capture Technology

Published:2014 Issue: Volume:63 Page:4508-4518
ISSN:1876-6102
Container-title:Energy Procedia
language:en
Short-container-title:Energy Procedia

Author:

Kervévan C.,Beddelem M.-H.,O’Neil K.

Publisher

Elsevier BV

Reference5 articles.

1. Kervévan C., Bugarel F., Galiègue X., Le Gallo Y., May F., O’Neil K., Sterpenich J. CO2-DISSOLVED: a novel approach to combining CCS and geothermal heat recovery. In: EAGE, editor. Sustainable Earth Sciences, technologies for sustainable use of the deep sub-surface. Pau, France; 30 Sept.- 4 Oct. 2013.

2. Blount G., Gorensek M., Hamm L.; O’Neil K.; Kervévan C. Beddelem M.-H. Pi-CO2 Aqueous Post-Combustion CO2 Capture: Proof of Concept through Thermodynamic, Hydrodynamic, and Gas-Lift Pump Modeling. Submitted to the GHGT 12 Conference, Austin, TX, USA; Oct. 5-9, 2014.

3. Castillo C., Knopf S., Kervévan C., May F. CO2-DISSOLVED: a novel concept coupling geological storage of dissolved CO2 and geothermal heat recovery – Part 2: Assessment of the Potential Industrial Applicability in France, Germany, and the U.S.A. Submitted to the GHGT 12 Conference, Austin, TX, USA; Oct. 5-9, 2014.

4. Hamm V., Kervévan C., Thiéry D. CO2-DISSOLVED: a Novel Concept Coupling Geological Storage of Dissolved CO2 and Geothermal Heat Recovery – Part 4: Preliminary Thermo-Hydrodynamic Simulations to Assess the CO2 Storage Efficiency. Submitted to the GHGT 12 Conference, Austin, TX, USA; Oct. 5-9, 2014.

5. Randi A., Sterpenich J., Morlota C., Pironon J., Kervévan C., Beddelem M.-H., Fléhoc C. CO2-DISSOLVED: a Novel Concept Coupling Geological Storage of Dissolved CO2 and Geothermal Heat Recovery – Part 3: Design of the MIRAGES-2 Experimental Device Dedicated to the Study of the Geochemical Water-Rock Interactions Triggered by CO2 Laden Brine Injection. Submitted to the GHGT 12 Conference, Austin, TX, USA; Oct. 5-9, 2014.

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