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  1. Article: Simulation of carbon dioxide mineralization and its effect on fault leakage rates in the South Georgia rift basin, southeastern U.S

    Alshammari, Adil / Lakshmi, Venkat / Brantley, Duke / Knapp, Camelia C. / Knapp, James H.

    Heliyon. 2022 June, v. 8, no. 6

    2022  

    Abstract: Over the past few decades, measured levels of atmospheric carbon dioxide have substantially increased. One of the ways to limit the adverse impacts of increased carbon dioxide concentrations is to capture and store it inside Earth's subsurface, a process ...

    Abstract Over the past few decades, measured levels of atmospheric carbon dioxide have substantially increased. One of the ways to limit the adverse impacts of increased carbon dioxide concentrations is to capture and store it inside Earth's subsurface, a process known as CO₂ sequestration. The success of this method is critically dependent on the ability to confine injected CO₂ for up to thousands of years. Establishing effective maintenance of sealing systems of reservoirs is of importance to prevent CO₂ leakage. In addition, understanding the nature and rate of potential CO₂ leakage related to this injection process is essential to evaluating seal effectiveness and ultimately mitigating global warming. In this study, we evaluated the impact of common chemical reactions between CO₂ and subsurface materials in situ as well as the relationship between CO₂ plume distribution and the CO₂ leakage within the seal zone that cause mineralization. Using subsurface seismic data and well log information, a three-dimensional model consisting of a reservoir and seal zones was created and evaluated for the South Georgia Rift (SGR) basin in the southeastern U.S. The Computer Modeling Group (CMG, 2017), was used to model the effect of CO₂ mineralization on the optimal values of fault permeability permeabilitydue to fluid substitution between the formation water and CO₂. The model simulated the chemical reactions between carbon dioxide and mafic minerals to produce stable minerals of carbonate rock that form in the fault. Preliminary results show that CO₂ migration can be controlled effectively for fault permeability values between 0.1-1 mD. Within this range, mineralization effectively reduced CO₂ leakage within the seal zone.
    Keywords basins ; carbon dioxide ; carbonate rocks ; computers ; geophysical logging ; geophysics ; mineralization ; models ; permeability ; seals ; Georgia
    Language English
    Dates of publication 2022-06
    Publishing place Elsevier Ltd
    Document type Article
    ZDB-ID 2835763-2
    ISSN 2405-8440
    ISSN 2405-8440
    DOI 10.1016/j.heliyon.2022.e09635
    Database NAL-Catalogue (AGRICOLA)

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  2. Article ; Online: Permeability prediction in the South Georgia rift basin–applications to CO2 storage and regional tectonics

    Akintunde, Olusoga M. / Knapp, Camelia C. / Knapp, James H.

    Environ Earth Sci. 2022 Aug., v. 81, no. 15 p.391-391

    2022  

    Abstract: Absence of a permeability log necessary to assess reservoir quality and injectivity for potential CO₂ storage in the heterogeneous and complex South Georgia Rift (SGR) basin provides the motivation for this study. The focus of this study was on the ... ...

    Abstract Absence of a permeability log necessary to assess reservoir quality and injectivity for potential CO₂ storage in the heterogeneous and complex South Georgia Rift (SGR) basin provides the motivation for this study. The focus of this study was on the Triassic-Jurassic red beds buried, entrenched beneath the Cretaceous-Cenozoic Coastal Plain sediments. Moreover, the significant cost typically between $10 M and $100 M associated with drilling and logging for in situ permeability coupled with the limited resolution of existing core data further makes this work necessary. The purpose is to relate, use the interpretation of the predicted permeability distribution to assess feasibility for safe and long-term CO₂ sequestration. This study also intends to establish the impacts of active and passive tectonism that has shaped and/or re-shaped the evolution of the basin on the present-day permeability. A methodology was applied that utilizes the pore space and geohydraulic properties of the reservoir from existing laboratory and well data to produce a newly derived permeability log. It shows a non-uniform distribution with depths possibly due to geologic changes in the confined and heterogeneous red beds. The derived log displays characteristics consistent with observations from the porosity and resistivity logs. The interpretation of these logs provides evidence for the presence of low permeable, tightly cemented, and compacted red beds. We conclude that the low permeability aided by the low resistivity depicted in the red beds suggests increased confining stress and reduced injectivity, and that the uncharacteristically low permeability reflects a deformed basin shaped with episodes of uplift and erosion.
    Keywords basins ; carbon dioxide ; coastal plains ; motivation ; permeability ; porosity ; prediction ; tectonics ; Georgia
    Language English
    Dates of publication 2022-08
    Size p. 391.
    Publishing place Springer Berlin Heidelberg
    Document type Article ; Online
    ZDB-ID 2493699-6
    ISSN 1866-6299 ; 1866-6280
    ISSN (online) 1866-6299
    ISSN 1866-6280
    DOI 10.1007/s12665-022-10522-6
    Database NAL-Catalogue (AGRICOLA)

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  3. Article: Simulation of carbon dioxide mineralization and its effect on fault leakage rates in the South Georgia rift basin, southeastern U.S.

    Alshammari, Adil / Lakshmi, Venkat / Brantley, Duke / Knapp, Camelia C / Knapp, James H

    Heliyon

    2022  Volume 8, Issue 6, Page(s) e09635

    Abstract: Over the past few decades, measured levels of atmospheric carbon dioxide have substantially increased. One of the ways to limit the adverse impacts of increased carbon dioxide concentrations is to capture and store it inside Earth's subsurface, a process ...

    Abstract Over the past few decades, measured levels of atmospheric carbon dioxide have substantially increased. One of the ways to limit the adverse impacts of increased carbon dioxide concentrations is to capture and store it inside Earth's subsurface, a process known as CO
    Language English
    Publishing date 2022-06-07
    Publishing country England
    Document type Journal Article
    ZDB-ID 2835763-2
    ISSN 2405-8440
    ISSN 2405-8440
    DOI 10.1016/j.heliyon.2022.e09635
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  4. Conference proceedings ; Online: New discoveries at Woolsey Mound, MC118, northern Gulf of Mexico

    Lutken, Carol B. / Macelloni, Leonardo / Sleeper, Ken / D'Emidio, Marco / McGee, Tom / Simonetti, Antonello / Knapp, James H. / Knapp, Camelia C. / Caruso, Simona / Chanton, Jeff / Lapham, Laura / Lodi, Mariangela / Ingrassia, Michela / Higley, Paul / Brunner, Charlotte / Camilli, Rich / Battista, Brad / Short, Tim / Bell, Ryan /
    Fietzek, Peer

    2011  

    Abstract: Woolsey Mound, a 1km-diameter carbonate-gas hydrate complex in the northern Gulf of Mexico, is the site of the Gulf’s only seafloor monitoring station-observatory in its only research reserve, Mississippi Canyon 118. Active venting, outcropping hydrate, ... ...

    Abstract Woolsey Mound, a 1km-diameter carbonate-gas hydrate complex in the northern Gulf of Mexico, is the site of the Gulf’s only seafloor monitoring station-observatory in its only research reserve, Mississippi Canyon 118. Active venting, outcropping hydrate, and a thriving chemosynthetic community recommend the site for study. Since 2005, the Gulf of Mexico Hydrates Research Consortium has been conducting multidisciplinary studies to 1. Characterize the site, 2. Establish a facility for real-time monitoring-observing of gas hydrates in a natural setting, 3. Study the effects of gas hydrates on seafloor stability, 4. Establish fluid migration routes and estimates of fluid-flux at the site, 5. Establish the interrelationships between the organisms at the vent site and the association-dissociation of hydrates. A variety of novel geological, geophysical, geochemical and biological studies has been designed and conducted, some in survey mode, others in monitoring mode. Geophysical studies involving merging multiple seismic data acquisition systems accompanied by the application of custom processing techniques verify communication of surface features with deep structures. Supporting geological data derive from innovative recovery techniques. Geochemical sensors, used experimentally in survey mode, including aboard an AUV, double as monitoring devices. A suite of pore-fluid sampling devices has returned data that capture change at the site in daily increments; using only noise as an energy source, hydrophones have returned daily fluctuations in physical properties. Ever-expanding capabilities of a custom-ROV have been determined by research needs. Processing of new as well as conventional data via unconventional means has resulted in the discovery of new features….vents, faults, benthic fauna….and modification of others including pockmarks, hydrate outcrops, vent activity, and water-column chemical plumes. Though real-time monitoring awaits communications and power link to land, periodic data-collection reveals a ...
    Subject code 550
    Language English
    Publishing country de
    Document type Conference proceedings ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

    Full text online

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  5. Article: New discoveries at Woolsey Mound, MC118, northern Gulf of Mexico

    Lutken, Carol B. / Macelloni, Leonardo / Sleeper, Ken / D'Emidio, Marco / McGee, Tom / Simonetti, Antonello / Knapp, James H. / Knapp, Camelia C. / Caruso, Simona / Chanton, Jeff / Lapham, Laura / Lodi, Mariangela / Ingrassia, Michela / Higley, Paul / Brunner, Charlotte / Camilli, Rich / Battista, Brad / Short, Tim / Bell, Ryan /
    Fietzek, Peer

    Abstract: Woolsey Mound, a 1km-diameter carbonate-gas hydrate complex in the northern Gulf of Mexico, is the site of the Gulf’s only seafloor monitoring station-observatory in its only research reserve, Mississippi Canyon 118. Active venting, outcropping hydrate, ... ...

    Abstract Woolsey Mound, a 1km-diameter carbonate-gas hydrate complex in the northern Gulf of Mexico, is the site of the Gulf’s only seafloor monitoring station-observatory in its only research reserve, Mississippi Canyon 118. Active venting, outcropping hydrate, and a thriving chemosynthetic community recommend the site for study. Since 2005, the Gulf of Mexico Hydrates Research Consortium has been conducting multidisciplinary studies to 1. Characterize the site, 2. Establish a facility for real-time monitoring-observing of gas hydrates in a natural setting, 3. Study the effects of gas hydrates on seafloor stability, 4. Establish fluid migration routes and estimates of fluid-flux at the site, 5. Establish the interrelationships between theorganisms at the vent site and the association-dissociation of hydrates. A variety of novel geological, geophysical, geochemical and biological studies has been designed andconducted, some in survey mode, others in monitoring mode. Geophysical studies involving merging multiple seismic data acquisition systems accompanied by the application of custom processing techniques verify communication of surface features with deep structures. Supporting geological data derive from innovative recovery techniques. Geochemical sensors, used experimentally in survey mode, including aboard an AUV, double as monitoring devices. A suite of pore-fluid sampling devices has returned data that capture change at the site in daily increments; using only noise as an energy source, hydrophones havereturned daily fluctuations in physical properties. Ever-expanding capabilities of a custom-ROV have been determined by research needs. Processing of new as well as conventional data via unconventional meanshas resulted in the discovery of new features…..vents, faults, benthic fauna…..and modification of others including pockmarks, hydrate outcrops, vent activity, and water-column chemical plumes.Though real-time monitoring awaits communications and power link to land, periodic data-collection reveals a carbonate-hydrate mound, part of an immensely complex hydrocarbon system.
    Document type Article
    Database AGRIS - International Information System for the Agricultural Sciences and Technology

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    Inter-library loan at ZB MED

    Your chosen title can be delivered directly to ZB MED Cologne location if you are registered as a user at ZB MED Cologne.

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