Development, test, and evaluation of exploitation technologies for the application of gas production from natural gas hydrate reservoirs and their potential application in the Danube Delta, Black Sea

Art.104488 One important scientific objective of the national research project SUGAR - Submarine Gas Hydrate Reservoirs was the development, improvement, and test of innovative concepts for the production of methane from natural gas hydrate reservoirs. Therefore, different production methods, such a...

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Published in:Marine and Petroleum Geology
Main Authors: Schicks, J.M., Haeckel, M., Janicki, Georg, Spangenberg, E., Thaler, J., Giese, R., Strauch, B., Heeschen, K., Priegnitz, M., Luzi-Helbing, M., Deusner, C., Kossel, E., Bigalke, N., Schlüter, Stefan, Hennig, Torsten, Deerberg, Görge, Wallmann, K.
Format: Article in Journal/Newspaper
Language:English
Published: 2020
Subjects:
Methane hydrate
Online Access:https://publica.fraunhofer.de/handle/publica/263539
https://doi.org/10.1016/j.marpetgeo.2020.104488
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spelling ftfrauneprints:oai:publica.fraunhofer.de:publica/263539 2024-04-28T08:28:23+00:00 Development, test, and evaluation of exploitation technologies for the application of gas production from natural gas hydrate reservoirs and their potential application in the Danube Delta, Black Sea Schicks, J.M. Haeckel, M. Janicki, Georg Spangenberg, E. Thaler, J. Giese, R. Strauch, B. Heeschen, K. Priegnitz, M. Luzi-Helbing, M. Deusner, C. Kossel, E. Bigalke, N. Schlüter, Stefan Hennig, Torsten Deerberg, Görge Wallmann, K. 2020 https://publica.fraunhofer.de/handle/publica/263539 https://doi.org/10.1016/j.marpetgeo.2020.104488 en eng Marine and petroleum geology doi:10.1016/j.marpetgeo.2020.104488 https://publica.fraunhofer.de/handle/publica/263539 journal article 2020 ftfrauneprints https://doi.org/10.1016/j.marpetgeo.2020.104488 2024-04-09T23:44:38Z Art.104488 One important scientific objective of the national research project SUGAR - Submarine Gas Hydrate Reservoirs was the development, improvement, and test of innovative concepts for the production of methane from natural gas hydrate reservoirs. Therefore, different production methods, such as the thermal stimulation using in situ combustion, the chemical stimulation via injection of CO2 as a gaseous, liquid or supercritical phase and depressurization were tested alone or in combination at different scales. In the laboratory experiments these ranged from pore and hydrate grain scale to 425-L reactor volume, whereas numerical models were applied to describe the related processes from molecular to reservoir scale. In addition, the numerical simulations also evaluated the feasibility and efficiency of the application of these methods in selected areas, such as the Danube Paleodelta in the Black Sea, addressing the two dominant methane hydrate reservoir settings, buried channel-levee and turbidite systems. It turned out, that the injection of CO2 or a CO2-N2 gas mixture is not applicable for the Danube Paleodelta in the Black Sea, because the local pressure and temperature conditions are too close to the equilibrium conditions of both, the CO2 hydrate and a CO2-N2 mixed hydrate stability fields. Experiments using thermal stimulation and depressurization showed promising results but also some issues, such as sufficient heat transfer. In summary it can be said that the applicability and efficiency of each method has to be proven for each specific hydrate reservoir conditions. Based on the results obtained by numerical simulations the most promising and safe method for the production of CH4 from hydrate bearing sediments in the Danube Paleodelta would be the depressurization technique. This study summarizes the main experimental and modeling results. 120 Article in Journal/Newspaper Methane hydrate Publikationsdatenbank der Fraunhofer-Gesellschaft Marine and Petroleum Geology 120 104488
institution Open Polar
collection Publikationsdatenbank der Fraunhofer-Gesellschaft
op_collection_id ftfrauneprints
language English
description Art.104488 One important scientific objective of the national research project SUGAR - Submarine Gas Hydrate Reservoirs was the development, improvement, and test of innovative concepts for the production of methane from natural gas hydrate reservoirs. Therefore, different production methods, such as the thermal stimulation using in situ combustion, the chemical stimulation via injection of CO2 as a gaseous, liquid or supercritical phase and depressurization were tested alone or in combination at different scales. In the laboratory experiments these ranged from pore and hydrate grain scale to 425-L reactor volume, whereas numerical models were applied to describe the related processes from molecular to reservoir scale. In addition, the numerical simulations also evaluated the feasibility and efficiency of the application of these methods in selected areas, such as the Danube Paleodelta in the Black Sea, addressing the two dominant methane hydrate reservoir settings, buried channel-levee and turbidite systems. It turned out, that the injection of CO2 or a CO2-N2 gas mixture is not applicable for the Danube Paleodelta in the Black Sea, because the local pressure and temperature conditions are too close to the equilibrium conditions of both, the CO2 hydrate and a CO2-N2 mixed hydrate stability fields. Experiments using thermal stimulation and depressurization showed promising results but also some issues, such as sufficient heat transfer. In summary it can be said that the applicability and efficiency of each method has to be proven for each specific hydrate reservoir conditions. Based on the results obtained by numerical simulations the most promising and safe method for the production of CH4 from hydrate bearing sediments in the Danube Paleodelta would be the depressurization technique. This study summarizes the main experimental and modeling results. 120
format Article in Journal/Newspaper
author Schicks, J.M.
Haeckel, M.
Janicki, Georg
Spangenberg, E.
Thaler, J.
Giese, R.
Strauch, B.
Heeschen, K.
Priegnitz, M.
Luzi-Helbing, M.
Deusner, C.
Kossel, E.
Bigalke, N.
Schlüter, Stefan
Hennig, Torsten
Deerberg, Görge
Wallmann, K.
spellingShingle Schicks, J.M.
Haeckel, M.
Janicki, Georg
Spangenberg, E.
Thaler, J.
Giese, R.
Strauch, B.
Heeschen, K.
Priegnitz, M.
Luzi-Helbing, M.
Deusner, C.
Kossel, E.
Bigalke, N.
Schlüter, Stefan
Hennig, Torsten
Deerberg, Görge
Wallmann, K.
Development, test, and evaluation of exploitation technologies for the application of gas production from natural gas hydrate reservoirs and their potential application in the Danube Delta, Black Sea
author_facet Schicks, J.M.
Haeckel, M.
Janicki, Georg
Spangenberg, E.
Thaler, J.
Giese, R.
Strauch, B.
Heeschen, K.
Priegnitz, M.
Luzi-Helbing, M.
Deusner, C.
Kossel, E.
Bigalke, N.
Schlüter, Stefan
Hennig, Torsten
Deerberg, Görge
Wallmann, K.
author_sort Schicks, J.M.
title Development, test, and evaluation of exploitation technologies for the application of gas production from natural gas hydrate reservoirs and their potential application in the Danube Delta, Black Sea
title_short Development, test, and evaluation of exploitation technologies for the application of gas production from natural gas hydrate reservoirs and their potential application in the Danube Delta, Black Sea
title_full Development, test, and evaluation of exploitation technologies for the application of gas production from natural gas hydrate reservoirs and their potential application in the Danube Delta, Black Sea
title_fullStr Development, test, and evaluation of exploitation technologies for the application of gas production from natural gas hydrate reservoirs and their potential application in the Danube Delta, Black Sea
title_full_unstemmed Development, test, and evaluation of exploitation technologies for the application of gas production from natural gas hydrate reservoirs and their potential application in the Danube Delta, Black Sea
title_sort development, test, and evaluation of exploitation technologies for the application of gas production from natural gas hydrate reservoirs and their potential application in the danube delta, black sea
publishDate 2020
url https://publica.fraunhofer.de/handle/publica/263539
https://doi.org/10.1016/j.marpetgeo.2020.104488
genre Methane hydrate
genre_facet Methane hydrate
op_relation Marine and petroleum geology
doi:10.1016/j.marpetgeo.2020.104488
https://publica.fraunhofer.de/handle/publica/263539
op_doi https://doi.org/10.1016/j.marpetgeo.2020.104488
container_title Marine and Petroleum Geology
container_volume 120
container_start_page 104488
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