GLORIA — GEOMAR Library Ocean Research Information Access

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Methane Production from Gas Hydrate Deposits through Injection of Supercritical CO2 (2012)

Deusner, Christian ; Bigalke, Nikolaus ; Kossel, Elke ; [et al.]

MDPI

In: Energies, 5 (7). pp. 2112-2140.

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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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The Global Inventory of Methane Hydrate in Marine Sediments: A Theoretical Approach (2012)

Wallmann, Klaus ; Pinero, Elena ; Burwicz, Ewa ; [et al.]

MDPI

In: Energies, 5 (7). pp. 2449-2498.

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Publication Date: 2019-09-23

Description: The accumulation of methane hydrate in marine sediments is controlled by a number of physical and biogeochemical parameters including the thickness of the gas hydrate stability zone (GHSZ), the solubility of methane in pore fluids, the accumulation of particulate organic carbon at the seafloor, the kinetics of microbial organic matter degradation and methane generation in marine sediments, sediment compaction and the ascent of deep-seated pore fluids and methane gas into the GHSZ. Our present knowledge on these controlling factors is discussed and new estimates of global sediment and methane fluxes are provided applying a transport-reaction model at global scale. The modeling and the data evaluation yield improved and better constrained estimates of the global pore volume within the modern GHSZ ( ≥ 44 × 1015 m3), the Holocene POC accumulation rate at the seabed (~1.4 × 1014 g yr−1), the global rate of microbial methane production in the deep biosphere (4−25 × 1012 g C yr−1) and the inventory of methane hydrates in marine sediments ( ≥ 455 Gt of methane-bound carbon).

Type: Article , PeerReviewed

Format: text

DOI: 10.3390/en5072449

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Report on range of long-term scenarios to be simulated (2012)

Blackford, Jerry ; Haeckel, Matthias ; Wallmann, Klaus

ECO2 Project Office

In: ECO2 Deliverable, D12.2 . ECO2 Project Office, 6 pp.

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Publication Date: 2019-03-11

Description: In order to proceed with speculative modelling of the impacts of potential leakage of geologically stored carbon, it is necessary to develop plausible scenarios. Here a range of such scenarios are developed based on a consensus of the possible geological mechanisms of leakage, namely abandoned wells, geological faults and operational blowouts. Whilst the resulting scenarios remain highly speculative, they do enable short term progress in modelling and provide a basis for further debate and refinement.

Type: Report , NonPeerReviewed , info:eu-repo/semantics/book

Format: text

DOI: 10.3289/ECO2_D12.2

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CCT2 Report on model interfacing and evaluation strategy (2012)

Haeckel, Matthias ; Haffert, Laura

ECO2 Project Office

In: ECO2 Deliverable, D12.1 . ECO2 Project Office, 14 pp.

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Publication Date: 2019-03-11

Type: Report , NonPeerReviewed , info:eu-repo/semantics/book

Format: text

DOI: 10.3289/ECO2_D12.1

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Report summarizing all information from WP2 relevant for the creation of an Environmental Best Practice for offshore CCS sites (2014)

James, R. ; Connelly, D. ; Lichtschlag, A. ; [et al.]

ECO2 Project Office

In: ECO2 Deliverable, D2.3 . ECO2 Project Office, Kiel, Germany, 13 pp.

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Publication Date: 2019-03-11

Type: Report , NonPeerReviewed , info:eu-repo/semantics/book

Format: text

DOI: 10.3289/ECO2_D2.3

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Natürliche Gashydrate - Künftige Energieträger oder Option zur CO2-Speicherung? (2011)

Haeckel, Matthias ; Suess, Erwin

Wiley-VCH

In: In: Chemie über den Wolken ... und darunter. , ed. by Zellner, R. Wiley-VCH, Weinheim, pp. 65-70. ISBN 978-3-527-32651-8

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Publication Date: 2012-02-23

Type: Book chapter , NonPeerReviewed

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Spatial and temporal modelling of thermal effects during CO2 injection into methane-hydrate reservoirs (2014)

Gharasoo, Mehdi ; Deusner, Christian ; Bigalke, Nikolaus ; [et al.]

China Geological Survey

In: [Paper] In: 8. International Conference on Gas Hydrates (ICGH8), 28.07.-01.08.2014, Beijing, China . Proceedings of the 8th International Conference on Gas Hydrates (ICGH8-2014), Beijing, China, 28 July - 1 August, 2014 ; T3-56 .

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Publication Date: 2016-12-21

Description: Injection of CO2 into CH4-hydrate bearing sediments, and the resulting in-situ replacement of CH4-hydrate by CO2-hydrate, has been proposed as a technique for the emission-free production of natural gas from gas hydrates. While the hydrate conversion is thermodynamically feasible, many studies conclude that the overall process suffers from mass transfer limitations and CH4 production is limited after short time. To improve CH4 production various technical concepts have been considered, including the injection of heated supercritical CO2 combining chemical activation and thermalstimulation. While the feasibility of the concept was demonstrated in high-pressure flow-through experiments and high CH4 production efficiencies were observed, it was evident that overall yields and efficiencies were influenced by a variety of processes which could not be disclosed through bulk mass and volume analysis. Here we present different numerical simulation strategies which were developed and tested as tools to better understand the importance of mass and heat transport relative to reaction and phase transition kinetics for CH4 release and production, or for CO2 retention, respectively. The modeling approaches are discussed with respect to applicability for experimental design, process development or prediction of CH4 production from natural gas hydrate reservoirs on larger scales.

Type: Conference or Workshop Item , NonPeerReviewed

Format: text

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Experimental investigation of water permeability in quartz sand as function of CH4-hydrate saturation (2014)

Kossel, Elke ; Deusner, Christian ; Bigalke, Nikolaus ; [et al.]

China Geological Survey

In: [Paper] In: 8. International Conference on Gas Hydrates (ICGH8), 28.07.-01.08.2014, Beijing, China . Proceedings of the 8th International Conference on Gas Hydrates (ICGH8) Beijing, China, 28 July - 1 August, 2014 ; T1-68 .

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Publication Date: 2014-11-21

Description: Water permeability in gas hydrate bearing sediments is a crucial parameter for the prediction of gas production scenarios. So far, the commonly used permeability models are backed by very few experimental data. Furthermore, detailed knowledge of the exact formation mechanism leads to severe uncertainties in the interpretation of the experimental data. We formed CH4 hydrates from a methane saturated water solution and used Magnetic Resonance Imaging (MRI) to measure time resolved maps of the three-dimensional gas hydrate saturation. These maps were used for 3D Finite Elements Method (FEM) simulations. The simulation results enabled us to optimize existing models for permeabilities as function of gas hydrate saturation.

Type: Conference or Workshop Item , NonPeerReviewed

Format: text

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Fluxes of CO2 from natural seep sites and Sleipner storage site (2014)

Linke, Peter ; Haeckel, Matthias ; Schneider von Deimling, Jens ; [et al.]

ECO2 Project Office

In: ECO2 Deliverable, D2.2 . ECO2 Project Office, Kiel, Germany, 43 pp.

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Publication Date: 2019-03-11

Type: Report , NonPeerReviewed , info:eu-repo/semantics/book

Format: text

DOI: 10.3289/ECO2_D2.2

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Gas hydrate accumulations at the Alaska North Sloge: total assessment based on 3D petroleum system modeling (2014)

Pinero, Elena ; Hensen, Christian ; Haeckel, Matthias ; [et al.]

China Geological Survey

In: [Paper] In: 8. International Conference on Gas Hydrates (ICGH8), 28.07.-01.08.2014, Beijing, China . Proceedings of the 8th International Conference on Gas Hydrates (ICGH8-2014), Beijing, China, 28 July - 1 August, 2014 ; T2-37 .

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Publication Date: 2014-11-21

Description: The Alaska North Slope comprises an area of about 400,000 km2 including prominent gas and oil fields. Gas hydrates occur widely at the Alaska North Slope. A recent assessment by the USGS estimates 0.7-4.47 x 1012 m3 of technically recoverable gas hydrates based on well data and drilled hydrate accumulations. In spring 2012 a production field trial, testing CO2/N2 injection and depressurization, was conducted by USDOE/JOGMEC/ConocoPhillips at the Ignik Sikumi site. The 3D geological model of the Alaska North Slope developed by the USGS and Schlumberger is used to test the new gas hydrate module in the petroleum systems modeling software PetroMod®. Model results of the present extent of the gas hydrate stability zone (GHSZ) are in good agreement with results from well data. The model simulations reveal that the evolution of the GHSZ over time is primarily controlled by the climatic conditions regulating the extent of the permafrost during the last 1 Myr. Preliminary model runs predict the highest gas hydrate saturations near the major faults and at the bottom of the GHSZ, where thermogenic methane gas accumulates after migration through the most permeable stratigraphic layers (e.g. Sag River Sandstone Fm, Ivishak Fm). Gas hydrate saturations predicted for the Mount Elbert Stratigraphic Test Well and the Ignik Sikumi sites are basically controlled by the alternation of layers with different permeability and the fault properties (time of opening, permeability, etc). Further results including a total gas hydrate assessment for the Alaska North Slope will be presented during the conference.

Type: Conference or Workshop Item , NonPeerReviewed

Format: text

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