All Days 2012
DOI: 10.4043/23725-ms
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North Slope Hydrate Fieldtrial: CO2/CH4 Exchange

Abstract: CO2/CH4 exchange in a sandstone-hosted methane hydratereservoir was executed in the field, following several years of laboratoryexperimentation. Reservoir simulation and laboratory data informedfieldtrial design, including use of a cell-to-cell model that included correctliquid/vapor/hydrate phase behavior of methane, carbon dioxide, nitrogen, andwater. Most concepts for producing methane from hydrate deposits rely ondepressurization, heating, or chemical melting. These techniques resultin di… Show more

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Cited by 52 publications
(56 citation statements)
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“…A binary gas mixture (25/75 mol% CO2/N2) was used to avoid plugging the sample during injection. Co-injection of N2 and CO2 (77/23 mol%) was also used in the Ignik Sikumi trial, which continuously injected over a period of 14 days [38]. Similar effluent profile as the other experiments was observed for the first injected pore volume in w5, while a deviating trend was observed as injection continued.…”
Section: Continuous Co2 Mass Transport In Non-fractured Samplessupporting
confidence: 56%
“…A binary gas mixture (25/75 mol% CO2/N2) was used to avoid plugging the sample during injection. Co-injection of N2 and CO2 (77/23 mol%) was also used in the Ignik Sikumi trial, which continuously injected over a period of 14 days [38]. Similar effluent profile as the other experiments was observed for the first injected pore volume in w5, while a deviating trend was observed as injection continued.…”
Section: Continuous Co2 Mass Transport In Non-fractured Samplessupporting
confidence: 56%
“…The presence of GH changes the mechanical properties of these sediments or soils, with increased GH saturations (S h ) often being related to higher shear strength, increased stiffness, and stronger dilatancy (e.g., Waite et al, 2009;Yun et al, 2007). The mechanical and hydraulic properties of GH-bearing sediments (GHBS) are considered to influence the stability of marine sediments and slopes (Bugge et al, 1988;Elger et al, 2018;Kvalstad et al, 2005;Mountjoy et al, 2014), and they are crucial factors for drilling operations (McConnell et al, 2012) and natural gas production scenarios (Boswell et al, 2017;Collett, 2002;Konno et al, 2017;Schoderbek et al, 2012;Yamamoto et al, 2014). Thus, considerable effort is invested in geotechnical testing of GHBS to better understand geomechanical properties and stress-strain behavior in slope failure events or GH production scenarios.…”
Section: Introductionmentioning
confidence: 99%
“…Proposed gas production schemes are commonly based on methane gas hydrate dissociation-by either depressurization, thermal stimulation, injection of chemical inhibitors, or a combination of these (Moridis et al, 2011). We have previously demonstrated an alternative strategy for replacement of methane molecules in hydrate with CO 2 (Graue et al, 2008;Kvamme et al, 2007), which later resulted in a field trial on the North Slope of Alaska where more than half of the injected CO 2 was sequestered in the reservoir (Schoderbek et al, 2012). Carbon dioxide is the thermodynamically preferred guest molecule and this production scheme enables an option for carbon capture, utilization and storage.…”
Section: Introductionmentioning
confidence: 99%