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TOPS: Technology Options for Coupled Underground Coal Gasification and CO2 Capture and Storage

Urheber*innen

Durucan,  Sevket
External Organizations;

Korre,  Anna
External Organizations;

Shi,  Ji-Quan
External Organizations;

Idiens,  Matthew
External Organizations;

Stańczyk,  Krzysztof
External Organizations;

Kapusta,  Krzysztof
External Organizations;

Rogut-Dabrowska,  Anna
External Organizations;

/persons/resource/kempka

Kempka,  T.
5.3 Hydrogeology, 5.0 Earth Surface Processes, Departments, GFZ Publication Database, Deutsches GeoForschungsZentrum;

Wolf,  Karl-Heinz
External Organizations;

Younger,  Paul
External Organizations;

Zavsek,  Simon
External Organizations;

Poulsen,  Niels Erik
External Organizations;

Bojda,  Dariusz
External Organizations;

Franzsen,  Sebastian
External Organizations;

Muresan,  Mihai
External Organizations;

Gao,  Jianliang
External Organizations;

Beath,  Andrew
External Organizations;

Mastalerz,  Maria
External Organizations;

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814913.pdf
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Zitation

Durucan, S., Korre, A., Shi, J.-Q., Idiens, M., Stańczyk, K., Kapusta, K., Rogut-Dabrowska, A., Kempka, T., Wolf, K.-H., Younger, P., Zavsek, S., Poulsen, N. E., Bojda, D., Franzsen, S., Muresan, M., Gao, J., Beath, A., Mastalerz, M. (2014): TOPS: Technology Options for Coupled Underground Coal Gasification and CO2 Capture and Storage. - Energy Procedia, 63, 5827-5835.
https://doi.org/10.1016/j.egypro.2014.11.616


Zitierlink: https://gfzpublic.gfz-potsdam.de/pubman/item/item_814913
Zusammenfassung
The TOPS project takes a radical and holistic approach to coupled UCG-CCS, and thus the site selection criteria for the coupled processes, considering both geological, reservoir and process engineering aspects and different end-uses of the produced synthetic gas in order to optimise the whole value chain. In particular, the experimental research carried out utilises a newly constructed high pressure gasification reactor investigating several prospective options of UCG technology implementations. Integrated research addresses field based technology knowledge gaps, such as cavity progression and geomechanics, potential groundwater contamination and subsidence impacts, together with research into process engineering solutions in order to assess the role/impact of site specific factors and selected reagents on the operability of given CO2 emission mitigation options. Ultimately, research aims to minimise the need for on-site CO2 storage capacity as well as maximising the economic yield of UCG through value added end products.