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  • 1
    Book
    Book
    The SUGAR Toolbox : a library of numerical algorithms and data for modelling of gas hydrate systems and marine environments (2013)
    Kiel : GEOMAR, Helmholtz-Zentrum für Ozeanforschung
    Details Availability
    Type of Medium: Book
    Pages: II, 160 S. , graph. Darst.
    Series Statement: GEOMAR Report N.S. 8
    Language: English , German
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    GEOMAR CATALOGUE
    Link to Library Catalog
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  • 2
    Online Resource
    Online Resource
    The SUGAR Toolbox : a library of numerical algorithms and data for modelling of gas hydrate systems and marine environments (2013)
    Kiel : GEOMAR, Helmholtz-Zentrum für Ozeanforschung
    Details Availability
    Type of Medium: Online Resource
    Pages: graph. Darst.
    Edition: Online-Ausg. Online-Ressource (PDF-Datei: 160 S., 3,3 MB)
    Series Statement: GEOMAR Report N.S. 8
    URL: http://oceanrep.geomar.de/21558/
    URL: http://dx.doi.org/10.3289/GEOMAR_REP_NS_8_2013
    Language: English , German
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  • 3
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    The SUGAR Toolbox - A library of numerical algorithms and data for modelling of gas hydrate systems and marine environments (2013)
    PANGAEA
    In:  EPIC3Bremerhaven, PANGAEA
    Details
    Publication Date: 2015-05-11
    Repository Name: EPIC Alfred Wegener Institut
    Type: PANGAEA Documentation , notRev
    Format: application/zip
    Format: application/zip
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    PAPER (OA)
  • 4
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    Biological Properties of Iron Oxide Nanoparticles for Cellular and Molecular Magnetic Resonance Imaging (2011)
    MDPI
    In:  International Journal of Molecular Sciences, 12 (1). pp. 12-23.
    Details
    Publication Date: 2018-03-02
    Description: Superparamagnetic iron-oxide particles (SPIO) are used in different ways as contrast agents for magnetic resonance imaging (MRI): Particles with high nonspecific uptake are required for unspecific labeling of phagocytic cells whereas those that target specific molecules need to have very low unspecific cellular uptake. We compared iron-oxide particles with different core materials (magnetite, maghemite), different coatings (none, dextran, carboxydextran, polystyrene) and different hydrodynamic diameters (20-850 nm) for internalization kinetics, release of internalized particles, toxicity, localization of particles and ability to generate contrast in MRI. Particle uptake was investigated with U118 glioma cells und human umbilical vein endothelial cells (HUVEC), which exhibit different phagocytic properties. In both cell types, the contrast agents Resovist, B102, non-coated Fe(3)O(4) particles and microspheres were better internalized than dextran-coated Nanomag particles. SPIO uptake into the cells increased with particle/iron concentrations. Maximum intracellular accumulation of iron particles was observed between 24 h to 36 h of exposure. Most particles were retained in the cells for at least two weeks, were deeply internalized, and only few remained adsorbed at the cell surface. Internalized particles clustered in the cytosol of the cells. Furthermore, all particles showed a low toxicity. By MRI, monolayers consisting of 5000 Resovist-labeled cells could easily be visualized. Thus, for unspecific cell labeling, Resovist and microspheres show the highest potential, whereas Nanomag particles are promising contrast agents for target-specific labeling.
    Type: Article , PeerReviewed
    Format: text
    DOI: 10.3390/ijms12010012
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    OceanRep: Article in a Scientific Journal - peer-reviewed
  • 5
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    Methane Production from Gas Hydrate Deposits through Injection of Supercritical CO2 (2012)
    MDPI
    In:  Energies, 5 (7). pp. 2112-2140.
    Details
    Publication Date: 2019-01-15
    Description: The recovery of natural gas from CH4-hydrate deposits in sub-marine and sub-permafrost environments through injection of CO2 is considered a suitable strategy towards emission-neutral energy production. This study shows that the injection of hot, supercritical CO2 is particularly promising. The addition of heat triggers the dissociation of CH4-hydrate while the CO2, once thermally equilibrated, reacts with the pore water and is retained in the reservoir as immobile CO2-hydrate. Furthermore, optimal reservoir conditions of pressure and temperature are constrained. Experiments were conducted in a high-pressure flow-through reactor at different sediment temperatures (2 °C, 8 °C, 10 °C) and hydrostatic pressures (8 MPa, 13 MPa). The efficiency of both, CH4 production and CO2 retention is best at 8 °C, 13 MPa. Here, both CO2- and CH4-hydrate as well as mixed hydrates can form. At 2 °C, the production process was less effective due to congestion of transport pathways through the sediment by rapidly forming CO2-hydrate. In contrast, at 10 °C CH4 production suffered from local increases in permeability and fast breakthrough of the injection fluid, thereby confining the accessibility to the CH4 pool to only the most prominent fluid channels. Mass and volume balancing of the collected gas and fluid stream identified gas mobilization as equally important process parameter in addition to the rates of methane hydrate dissociation and hydrate conversion. Thus, the combination of heat supply and CO2 injection in one supercritical phase helps to overcome the mass transfer limitations usually observed in experiments with cold liquid or gaseous CO2.
    Type: Article , PeerReviewed
    Format: text
    DOI: 10.3390/en5072112
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    OceanRep: Article in a Scientific Journal - peer-reviewed
  • 6
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    Methanproduktion aus marinen Gashydraten: Experimente zur CH4-CO2-Hydratumwandlung unter Hochdruckbedingungen (2013)
    Wiley
    In:  Chemie - Ingenieur - Technik, 85 (9). pp. 1417-1418.
    Details
    Publication Date: 2019-09-23
    Description: Gashydrate sind eisähnliche Verbindungen, in denen Hydratbildner, z.B. Methan, in hoher Dichte gespeichert werden können. Methanhydrate sind nur bei hohen Drücken und tiefen Temperaturen sowie in Anwesenheit hoher Methankonzentrationen stabil. Diese Stabilitätsbedingungen sind unter bestimmten Voraussetzungen in marinen Sedimenten erfüllt, in denen Methan durch den mikrobiellen Abbau von abgelagerter Biomasse entsteht oder aus größeren Tiefen zugeführt wird. Die globale Menge an Methan in marinen Gashydraten überschreitet die Menge an Erdgas in konventionellen Lagerstätten vermutlich um ein Mehrfaches. Eine potenzielle Nutzung von Gashydraten als zukünftige Energiequelle wird daher gegenwärtig weltweit untersucht. Erste Feldtests in Permafrostregionen und marinen Lagerstätten haben gezeigt, dass eine Produktion von Methan aus Gashydraten prinzipiell möglich ist. Eine Förderung von Methan aus Gashydraten kann technisch realisiert werden mittels Druckabsenkung, durch thermische Stimulation oder chemische Aktivierung. Die Injektion von CO2, ebenfalls ein Hydratbildner, kann eine solche Aktivierung der natürlichen Hydrate bewirken und das Methan in der Hydratstruktur ersetzen. Infolgedessen erscheint eine verfahrenstechnische Kombination von Hydratabbau und CO2-Speicherung als besonders sinnvoll, da im Idealfall eine emissionsarme bis -freie Energiegewinnung ermöglicht würde. Untersuchungen zur Aufklärung mechanistischer und fluiddynamischer Aspekte der CH4-CO2-Hydratumwandlung sowie zur Entwicklung eines technischen Verfahrens werden in unterschiedlichen Hochdruckanlagen auf verschiedenen Skalen durchgeführt. Diese speziellen Systeme bieten die Möglichkeit, marine Druck-, Temperatur- und Durchflussbedingungen zu simulieren. Sie sind mit verschiedenen Sensoren und Messsystemen (z.B. CTD, IR, Raman, MRI) ausgerüstet, um den Prozessverlauf störungsfrei zu überwachen. Basierend auf derzeitigen Ergebnissen erscheint die Injektion von erwärmtem, überkritischem CO2 als vielversprechender technischer Baustein für die Verfahrensentwicklung. Die Zuführung von Wärmeenergie bewirkt die initiale Destabilisierung der Gashydrate und die Freisetzung von CH4, während nach Abkühlung das CO2 seinerseits Hydrate bildet und als feste, immobile Phase im Sediment zurückgehalten wird. Sowohl Methanproduktion als auch CO2-Speicherung sind dabei abhängig von der Reservoirtemperatur, so dass die Prozesseffizienz und -ausbeute bei mittleren Temperaturen (8°C) höher ist als bei niedrigeren (2°C) und höheren Temperaturen (10°C). Dies deutet darauf hin, dass der Gesamtprozess durch die Raten der jeweiligen Teilreaktionen der Hydratzersetzung und Hydratneubildung stark beeinflusst wird. Der experimentelle Vergleich unterschiedlicher Injektionsmodi zeigt, dass eine alternierende CO2-Injektion bestehend aus Injektions- und Reaktionsintervallen höhere Ausbeuten erreicht als eine kontinuierliche Injektion.
    Type: Article , PeerReviewed
    Format: text
    DOI: 10.1002/cite.201250728
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    OceanRep: Article in a Scientific Journal - peer-reviewed
  • 7
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    MRI of Gas Hydrate Formation and Conversion at Sub-Seafloor Conditions (2012)
    In:  [Poster] In: Magnetic Resonance in Porous Media 11, 09.-13.09.2012, Guildford, UK .
    Details
    Publication Date: 2012-10-05
    Type: Conference or Workshop Item , NonPeerReviewed
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    OceanRep: Poster
  • 8
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    CO2 Injection into Submarine, CH4-Hydrate-Bearing Sediments: Geochemical Implications of a Hydrate Conversion Technology (2013)
    In:  [Poster] In: Goldschmidt Conference 2013, 25.-30.08.2013, Florence, Italy .
    Details
    Publication Date: 2014-12-05
    Type: Conference or Workshop Item , NonPeerReviewed
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  • 9
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    Magnetic Resonance Imaging of Gas Hydrate Formation and Conversion at Sub-Seafloor Conditions (2013)
    Diffusion-Fundamentals.org
    In:  Diffusion Fundamentals, 18 (15). pp. 1-4.
    Details
    Publication Date: 2019-01-21
    Description: The production of natural gas from sub-seafloor gas hydrates is one possible strategy to meet the world’s growing demand for energy. On the other hand, climate warming scenarios call for the substitution of fossil energy resources by sustainable energy concepts. Burning natural gas from gas hydrates could be emission neutral if it was combined with a safe storage of the emitted CO2. Laboratory experiments, that address corresponding strategies, need to be performed under high pressures and low temperatures to meet the thermodynamic conditions of the sub-seafloor environment. In this paper, we present a high-pressure flow-through sample cell that is suitable for nuclear magnetic resonance (NMR) experiments at realistic marine environmental conditions, i.e. pressures up to 15 MPa and temperatures from 5 to 20 °C, and we demonstrate its suitability in applied gas hydrate research.
    Type: Article , PeerReviewed
    Format: text
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    OceanRep: Article in a Scientific Journal - peer-reviewed
  • 10
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    Water permeability in quartz sand as function of gas-hydrate saturation (2014)
    In:  [Talk] In: Frontiers of Magnetic Resonance: Applications to Nano- and Microscopically Structured Systems, 18.-21.09.2014, Bled, Slowenia .
    Details
    Publication Date: 2014-09-24
    Type: Conference or Workshop Item , NonPeerReviewed , info:eu-repo/semantics/conferenceObject
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    OceanRep: Talk
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