A review on the influence of CO2/shale interaction on shale properties: Implications of CCS in shales

© 2020 by the authors. Carbon capture and storage (CCS) is a developed technology to minimize CO2 emissions and reduce global climate change. Currently, shale gas formations are considered as a suitable target for CO2 sequestration projects predominantly due to their wide availability. Compared to c...

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Published in:Energies
Main Authors: Fatah, Ahmed, Bennour, Ziad, Ben Mahmud, Hisham, Gholami, Raoof, Hossain, Mofazzal
Format: Article in Journal/Newspaper
Language:English
Published: MDPI 2020
Subjects:
Science & Technology
Technology
Energy & Fuels
shale gas
CO(2)injection
CO(2)sequestration
CO(2)storage capacity
CO2
shale interaction
CARBON-DIOXIDE STORAGE
SUPERCRITICAL CO2 SATURATION
TRACE-ELEMENT DISSOLUTION
ENHANCED GAS RECOVERY
LIFE-CYCLE ASSESSMENT
SPONTANEOUS IMBIBITION
MECHANICAL-PROPERTIES
PORE STRUCTURE
CAPACITY ESTIMATION
GEOLOGICAL STORAGE
Carbonic acid
Online Access:https://hdl.handle.net/20.500.11937/81161
https://doi.org/10.3390/en13123200
id ftcurtin:oai:espace.curtin.edu.au:20.500.11937/81161
record_format openpolar
spelling ftcurtin:oai:espace.curtin.edu.au:20.500.11937/81161 2023-06-11T04:10:56+02:00 A review on the influence of CO2/shale interaction on shale properties: Implications of CCS in shales Fatah, Ahmed Bennour, Ziad Ben Mahmud, Hisham Gholami, Raoof Hossain, Mofazzal 2020 fulltext https://hdl.handle.net/20.500.11937/81161 https://doi.org/10.3390/en13123200 English eng MDPI http://hdl.handle.net/20.500.11937/81161 doi:10.3390/en13123200 http://creativecommons.org/licenses/by/4.0/ Science & Technology Technology Energy & Fuels shale gas CO(2)injection CO(2)sequestration CO(2)storage capacity CO2 shale interaction CARBON-DIOXIDE STORAGE SUPERCRITICAL CO2 SATURATION TRACE-ELEMENT DISSOLUTION ENHANCED GAS RECOVERY LIFE-CYCLE ASSESSMENT SPONTANEOUS IMBIBITION MECHANICAL-PROPERTIES PORE STRUCTURE CAPACITY ESTIMATION GEOLOGICAL STORAGE Journal Article 2020 ftcurtin https://doi.org/20.500.11937/8116110.3390/en13123200 2023-05-30T19:58:21Z © 2020 by the authors. Carbon capture and storage (CCS) is a developed technology to minimize CO2 emissions and reduce global climate change. Currently, shale gas formations are considered as a suitable target for CO2 sequestration projects predominantly due to their wide availability. Compared to conventional geological formations including saline aquifers and coal seams, depleted shale formations provide larger storage potential due to the high adsorption capacity of CO2 compared to methane in the shale formation. However, the injected CO2 causes possible geochemical interactions with the shale formation during storage applications and CO2 enhanced shale gas recovery (ESGR) processes. The CO2/shale interaction is a key factor for the efficiency of CO2 storage in shale formations, as it can significantly alter the shale properties. The formation of carbonic acid from CO2 dissolution is the main cause for the alterations in the physical, chemical and mechanical properties of the shale, which in return affects the storage capacity, pore properties, and fluid transport. Therefore, in this paper, the effect of CO2 exposure on shale properties is comprehensively reviewed, to gain an in-depth understanding of the impact of CO2/shale interaction on shale properties. This paper reviews the current knowledge of the CO2/shale interactions and describes the results achieved to date. The pore structure is one of the most affected properties by CO2/shale interactions; several scholars indicated that the differences in mineral composition for shales would result in wide variations in pore structure system. A noticeable reduction in specific surface area of shales was observed after CO2 treatment, which in the long-term could decrease CO2 adsorption capacity, affecting the CO2 storage efficiency. Other factors including shale sedimentary, pressure and temperature can also alter the pore system and decrease the shale "caprock"seal efficiency. Similarly, the alteration in shales' surface chemistry and functional species after ... Article in Journal/Newspaper Carbonic acid Curtin University: espace Energies 13 12 3200
institution Open Polar
collection Curtin University: espace
op_collection_id ftcurtin
language English
topic Science & Technology
Technology
Energy & Fuels
shale gas
CO(2)injection
CO(2)sequestration
CO(2)storage capacity
CO2
shale interaction
CARBON-DIOXIDE STORAGE
SUPERCRITICAL CO2 SATURATION
TRACE-ELEMENT DISSOLUTION
ENHANCED GAS RECOVERY
LIFE-CYCLE ASSESSMENT
SPONTANEOUS IMBIBITION
MECHANICAL-PROPERTIES
PORE STRUCTURE
CAPACITY ESTIMATION
GEOLOGICAL STORAGE
spellingShingle Science & Technology
Technology
Energy & Fuels
shale gas
CO(2)injection
CO(2)sequestration
CO(2)storage capacity
CO2
shale interaction
CARBON-DIOXIDE STORAGE
SUPERCRITICAL CO2 SATURATION
TRACE-ELEMENT DISSOLUTION
ENHANCED GAS RECOVERY
LIFE-CYCLE ASSESSMENT
SPONTANEOUS IMBIBITION
MECHANICAL-PROPERTIES
PORE STRUCTURE
CAPACITY ESTIMATION
GEOLOGICAL STORAGE
Fatah, Ahmed
Bennour, Ziad
Ben Mahmud, Hisham
Gholami, Raoof
Hossain, Mofazzal
A review on the influence of CO2/shale interaction on shale properties: Implications of CCS in shales
topic_facet Science & Technology
Technology
Energy & Fuels
shale gas
CO(2)injection
CO(2)sequestration
CO(2)storage capacity
CO2
shale interaction
CARBON-DIOXIDE STORAGE
SUPERCRITICAL CO2 SATURATION
TRACE-ELEMENT DISSOLUTION
ENHANCED GAS RECOVERY
LIFE-CYCLE ASSESSMENT
SPONTANEOUS IMBIBITION
MECHANICAL-PROPERTIES
PORE STRUCTURE
CAPACITY ESTIMATION
GEOLOGICAL STORAGE
description © 2020 by the authors. Carbon capture and storage (CCS) is a developed technology to minimize CO2 emissions and reduce global climate change. Currently, shale gas formations are considered as a suitable target for CO2 sequestration projects predominantly due to their wide availability. Compared to conventional geological formations including saline aquifers and coal seams, depleted shale formations provide larger storage potential due to the high adsorption capacity of CO2 compared to methane in the shale formation. However, the injected CO2 causes possible geochemical interactions with the shale formation during storage applications and CO2 enhanced shale gas recovery (ESGR) processes. The CO2/shale interaction is a key factor for the efficiency of CO2 storage in shale formations, as it can significantly alter the shale properties. The formation of carbonic acid from CO2 dissolution is the main cause for the alterations in the physical, chemical and mechanical properties of the shale, which in return affects the storage capacity, pore properties, and fluid transport. Therefore, in this paper, the effect of CO2 exposure on shale properties is comprehensively reviewed, to gain an in-depth understanding of the impact of CO2/shale interaction on shale properties. This paper reviews the current knowledge of the CO2/shale interactions and describes the results achieved to date. The pore structure is one of the most affected properties by CO2/shale interactions; several scholars indicated that the differences in mineral composition for shales would result in wide variations in pore structure system. A noticeable reduction in specific surface area of shales was observed after CO2 treatment, which in the long-term could decrease CO2 adsorption capacity, affecting the CO2 storage efficiency. Other factors including shale sedimentary, pressure and temperature can also alter the pore system and decrease the shale "caprock"seal efficiency. Similarly, the alteration in shales' surface chemistry and functional species after ...
format Article in Journal/Newspaper
author Fatah, Ahmed
Bennour, Ziad
Ben Mahmud, Hisham
Gholami, Raoof
Hossain, Mofazzal
author_facet Fatah, Ahmed
Bennour, Ziad
Ben Mahmud, Hisham
Gholami, Raoof
Hossain, Mofazzal
author_sort Fatah, Ahmed
title A review on the influence of CO2/shale interaction on shale properties: Implications of CCS in shales
title_short A review on the influence of CO2/shale interaction on shale properties: Implications of CCS in shales
title_full A review on the influence of CO2/shale interaction on shale properties: Implications of CCS in shales
title_fullStr A review on the influence of CO2/shale interaction on shale properties: Implications of CCS in shales
title_full_unstemmed A review on the influence of CO2/shale interaction on shale properties: Implications of CCS in shales
title_sort review on the influence of co2/shale interaction on shale properties: implications of ccs in shales
publisher MDPI
publishDate 2020
url https://hdl.handle.net/20.500.11937/81161
https://doi.org/10.3390/en13123200
genre Carbonic acid
genre_facet Carbonic acid
op_relation http://hdl.handle.net/20.500.11937/81161
doi:10.3390/en13123200
op_rights http://creativecommons.org/licenses/by/4.0/
op_doi https://doi.org/20.500.11937/8116110.3390/en13123200
container_title Energies
container_volume 13
container_issue 12
container_start_page 3200
_version_ 1768385681411801088

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