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Carbon capture and utilization using cement-free concrete products via near-ambient pressure carbonation Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-04-11 Xiangping Xian, Mehrdad Mahoutian, Duo Zhang, Yixin Shao, Zhe Yu
This study showed that carbon capture and utilization can be realized through the industrial production of cement-free concrete products exclusively prepared from steel slag via near-ambient pressure (AP) carbonation. Concrete pipes were chosen to investigate their feasibility at a laboratory scale before applying them to the pilot level. It was found despite a lower CO uptake, AP-carbonation-cured
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A holistic framework for evaluating gigaton scale geological CO[formula omitted] storage applied to the Alberta oil sands: Physics, policy, and economics Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-04-11 Yu Hao Zhao, Nima Shakourifar, Negar Shahsavar, Yaxuan Lei, Benzhong Zhao
Carbon capture, utilization, and storage (CCUS) is capable of significantly reducing anthropogenic carbon dioxide () emissions. In the Canadian context, CCUS is an important tool in mitigating emissions in the oil and gas sector, which is a significant contributor of greenhouse gas emissions in Canada. Previous studies have demonstrated the viability of CCUS in the Alberta oil sands but have not considered
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History matching for geological carbon storage using data-space inversion with spatio-temporal data parameterization Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-04-05 Su Jiang, Louis J. Durlofsky
History matching based on monitoring data will enable uncertainty reduction, and thus improved aquifer management, in industrial-scale carbon storage operations. In traditional model-based data assimilation, geomodel parameters are modified to force agreement between flow simulation results and observations. In data-space inversion (DSI), history-matched quantities of interest, e.g., posterior pressure
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An experimental investigation on the CO2 storage capacity of the composite confining system Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-04-01 Hailun Ni, Alexander P. Bump, Sahar Bakhshian
Assuring secure containment of stored CO is of paramount importance—for climate change mitigation, for permitting, and for reassuring the public. Regional seals, such as those sealing petroleum accumulations, have proven to be effective for securing CO. However, the goal of permanent sequestration can also be satisfied with “composite confining systems” consisting of multiple, possibly discontinuous
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Technical and economic performance assessment of blue hydrogen production using new configuration through modelling and simulation Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-03-28 Yiming Li, Jiayi Ren, Haotian Ma, Alasdair N Campbell
Steam methane reforming (SMR) is the dominant process for hydrogen production, which produce large amount of carbon dioxide (CO) as a by-product. To address concerns about carbon emissions, there is an increasing focus on blue hydrogen to mitigate carbon emissions during hydrogen production. However, the commercialization of blue hydrogen production (BHP) is hindered by the challenges of high cost
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Communicating CC(U)S and UGS technologies: The case of deliberative group interviews in North-Western Poland Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-03-28 Dariusz Wojakowski, Łukasz Klimkowski, Mateusz Stopa
The paper presents the results of deliberative group interviews with the representatives of local communities in West Pomeranian Province (Poland) on the opportunities and challenges related to the theoretical location of combined CO and natural gas underground storage (CC(U)S and UGS) in their immediate vicinity. The research has been conducted within AGaStor Project that focuses on innovative usage
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The cost of CO2 transport by truck and rail in the United States Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-03-23 Corey Myers, Wenqin Li, Gregory Markham
Transportation of CO to storage sites has long been an afterthought in carbon management technologies, with the unspoken assumption that pipelines and ships are the optimal solutions. In addition to legal, political, and public challenges to this notion, there may be situations where alternative transport options such as truck and rail are cheaper. Despite truck and rail transport of CO occurring at
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CCS under Article 6 of the Paris Agreement Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-03-16 Gregory Cook, Paul Zakkour, Samantha Neades, Tim Dixon
Article 6 of the Paris Agreement establishes the foundation for international carbon markets by allowing Parties to cooperate to achieve their nationally determined contributions (NDCs). The Paris Agreement also embeds the concept of ‘net zero’ by calling for a balance between anthropogenic emissions of GHGs and removals of GHGs by sinks to be reached in the latter part of this century. All signatory
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The evolutionary analysis of investment in CCS-EOR under dual carbon target—From the perspective of multi-agent involvement Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-03-15 Weiwei Zhang, Ximei Chen, Jie Tian
Carbon capture and storage with enhanced oil recovery (CCS-EOR) technology plays a crucial role in achieving dual carbon targets in China. And the rapid diffusion of technology requires collaboration among various stakeholders involved in industrial chain of CCS-EOR project and then it will cause conflict of interest among the participants. In order to solve the problem existing in CCS-EOR promotion
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Techno-economic comparisons of CO2 compression and liquefaction processes with distillation columns for high purity and recovery Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-03-15 Pyeong-Gon Jung, Semie Kim, Young-Il Lim, Hyojoon Kim, Hung-Man Moon
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Optimization method of water-quality observation positions in offshore CCS sites using the adjoint marginal sensitivity method Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-03-11 Shunsuke Kanao, Toru Sato
Carbon dioxide (CO) Capture and Storge (CCS) is recognized as a promising method to mitigate the global warming. In Japan, sub-seabed CO storage is considered to be commercialized in a decade. However, offshore CO storage has a risk of leakage. Since CO seepage into seawater may affect the marine environment, CO concentration must be monitored in CO storage sea sites under a Japanese law. However,
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Characterization of a marine mudstone confining unit at a proposed CO2 storage hub: Kemper county energy facility, Mississippi, USA Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-03-11 Conn Wethington, Jack Pashin, Jamar Bynum
Cretaceous and Tertiary strata across Mississippi, Alabama, and the adjacent continental shelf constitute a widespread succession of sandstone, mudstone, and carbonate that have proven to be important objectives for deployment of geologic CO storage technology in saline formations. Analyses of stratigraphy, sedimentology, and reservoir properties indicate that the Cretaceous-age Paluxy Formation,
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Recent advances on carbon dioxide sequestration potentiality in salt caverns: A review Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-03-08 Grant Charles Mwakipunda, Melckzedeck Michael Mgimba, Mbega Ramadhani Ngata, Long Yu
Permanent CO sequestration in the salt caverns seems to be one of the best geological storage options that can be used to reduce anthropogenic greenhouse gases emissions (GHGs) from the atmosphere. However, salt caverns are rarely used because other geological options are more available; hence, they are used for energy source storage for future use due to their high deliverability and ability to quickly
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Effects of thermal shocks on integrity of existing and newly-designed sealants for CCS applications Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-03-08 Kai Li, Anne M.H. Pluymakers
Sealants that can guarantee long-term wellbore sealing integrity are of great significance to the safe and sustainable storage of CO in carbon capture and storage (CCS). In this study, we investigate how abrupt cyclic thermal shocks affect the integrity of four sealants of different compositions. These sealants include two reference OPC-based blends (S1 and S2), one newly-designed OPC-based blend that
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Modelling geological CO2 leakage: Integrating fracture permeability and fault zone outcrop analysis Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-03-06 Roberto Emanuele Rizzo, Nathaniel Forbes Inskip, Hossein Fazeli, Peter Betlem, Kevin Bisdom, Niko Kampman, Jeroen Snippe, Kim Senger, Florian Doster, Andreas Busch
Geological carbon capture and storage (CCS) is a critical technology for mitigating greenhouse gas emissions, but the risk of leakage remains a significant concern. Fault and fracture networks across sealing intervals are potential pathways for CO to escape from storage reservoirs, necessitating accurate assessment of their permeability and connectivity. Our study presents an integrated approach for
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Storage potential of CO2 by repurposing oil and gas-related injection wells in the Montney Play, northeast British Columbia, Canada Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-03-06 Hongyu Yu, Bei Wang, Honn Kao, Ryan Visser, Malakai Jobin
Exploiting unconventional oil and gas resources in the Montney Play, northeast British Columbia (NEBC) has made it the province's second-largest source of greenhouse gas emissions. In pursuit of a cost-effective and seismic risk-aware approach for carbon emission reduction, this study evaluates the CO geological storage capacity in NEBC with a focus on repurposing existing injection wells for CO geological
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Potential secondary seals within overburden: Observation from the CO2 storage sites Aurora and Smeaheia, northern North Sea Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-03-06 Md Jamilur Rahman, Manzar Fawad, Nazmul Haque Mondol
This study evaluates potential secondary seals within the overburden in two CO storage sites, Aurora and Smeaheia within the Horda Platform area, of the northern North Sea. Secondary sealing intervals provide for safe and reliable CO storage as they prevent injected fluids from migrating into the atmosphere in the case of primary seal failure. This study analyzes the possible fate of the CO plume in
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Tracking a subsurface CO[formula omitted] plume with time-lapse pressure tomography in the Otway Stage 3 field project Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-03-05 Samuel J. Jackson, James Gunning, Jonathan Ennis-King, Tess Dance, Roman Pevzner, Peter Dumesny, Paul Barraclough, Charles Jenkins
We present results from a field trial of pressure tomography in the Otway Stage 3 project, Victoria, Australia. Pressure tomography involves the inversion of cross-well pressure test data to form a coarse-grained map of subsurface petrophysical properties, e.g. diffusivity-porosity-thickness. When performed in a time-lapse manner throughout CO injection, the gas saturation can also be tracked. Six
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Enhanced CO2 storage efficiency due to the impact of faults on CO2 migration in an interbedded saline aquifer Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-03-02 Lisong Zhang, Qingchun Yang, Shiyan Zhang, Lijie Shan, Qingchen Jiang, Mingze Sun
In the interbedded saline aquifer, as have been widely reported, the unexpected leaky fault is most likely to appear in the interbed. Under the combined effect of the leaky fault and the interned, CO storage efficiency was enhanced due to the impact of faults on CO migration in the interbedded saline aquifer. The main reasons include: (i) the fault acted as a conduit to guide CO to move upward and
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Assessing the geological storage potential of CO2 in Baltic Basin: A case study of Lithuanian hydrocarbon and deep saline reservoirs Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-03-01 Shruti Malik, Pijus Makauskas, Viltė Karaliūtė, Mayur Pal, Ravi Sharma
The need to reduce carbon emissions, via exploring the CO storage potential in the depleted subsurface hydrocarbon and the deep saline aquifers in the Baltic Basin region of Lithuania, is discussed. The paper presents a unique methodology, using multi-deterministic numerical models, for evaluating the CO storage potential of the deep saline aquifers and the depleted hydrocarbon fields of Lithuania
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Corrigendum to “Assessing economic trade-off for advances in amine-based post combustion capture technology” [International Journal of Greenhouse Gas Control (2024) 104068] Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-02-29 Koki Yagihar, Kazuki Fukushim, Hajime Ohno, Alexander Guzman-Urbina, Jialing Ni, Yasuhiro Fukushima
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A conceptual CO2 fill-and-spill mega-fairway in the UK Southern North Sea: A new approach to identify and optimise large-scale underground carbon storage (CCS) Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-02-29 Stefano Patruno, Andrew Green, Joel Corcoran, Davide Caldarella, Vittorio Scisciani, Marcin Przywara
This work explores the subsurface CO storage potential in UKCS Quadrants 43–44, by integrating 3D seismic interpretation, regional wellbore data and CO migration modelling. We show 11 Bunter Sandstone domes linked together in a fill-and-spill “Bunter Mega-Fairway”. These traps host a theoretical storage capacity of 8.4 Gt CO (≈3–4 times the filled-to-spill theoretical capacity of the proposed Endurance
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Qualitative risk assessment of legacy wells based on publicly available data for class VI well permit applications—Illinois basin case study Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-02-29 Nachiket Arbad, Marshall Watson, Lloyd Heinze, Hossein Emadi
Carbon Capture & Storage (CCS) refers to capturing the anthropogenic carbon dioxide (CO) at a source followed by injecting and storing it safely in the subsurface. The success of the CCS projects therefore heavily relies on how efficiently the confining zones (containment seals) prevent migration of the CO to the surface and/or to the underground sources of drinking water (USDW) through leakage pathways
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Effective microseismic monitoring of the Quest CCS site, Alberta, Canada Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-02-27 Bettina P. Goertz-Allmann, Nadège Langet, Kamran Iranpour, Daniela Kühn, Alan Baird, Steve Oates, Carrie Rowe, Stephen Harvey, Volker Oye, Hilde Nakstad
Microseismic monitoring represents a key surveillance technology to verify the integrity of subsurface CO storage sites. The precise location of microseismic events is first and foremost a direct and immediate indication of caprock and seal behavior but could also provide insight into CO plume migration. Tiny precursor movements provide diagnostic information about injection-related reservoir and caprock
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Economic impact of thermal energy storage on natural gas power with carbon capture in future electricity markets Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-02-26 Ethan J. Markey, Roberto Vercellino, Braden J. Limb, Maxwell Pisciotta, Joe Huyett, Shane Garland, Miles Abarr, Peter Psarras, Daniel R. Herber, Jason C. Quinn, Todd M. Bandhauer
As policies evolve to reflect climate change goals, the use of fossil fuel power plants is expected to change. Many fossil fuel power plants may opt to incorporate carbon capture and storage (CCS) technologies in response to evolving emissions policies. Additionally, fossil plants may need to be operated flexibly to accommodate the growing concentration of renewable energy systems. Unfortunately, most
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Carbon storage units and carbon storage obligations: A review of policy approaches Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-02-17 Paul Zakkour, Margriet Kuijper, Patrick Dixon, R. Stuart Haszeldine, Martin Towns, Myles Allen
Policies that incentivize the capture and geological storage of CO from large point sources (‘CCS’; and more recently, atmospheric removals), have so far tended to reward the resultant avoided CO emissions (or CO removals) achieved by operators at the point of capture. The expectation has been that geological CO storage sites, as well as the connecting infrastructure, will be developed and operated
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A Methodology for Fueling Mobility Markets with Hydrogen from Natural Gas plus Carbon Capture and Sequestration Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-02-16 Esuru R. Okoroafor, Justin Bracci, Naomi L. Boness, Sarah D. Saltzer, Gireesh Shrimali, Eleanor M. Hennessy, Tae Wook Kim, D'Arcy Biddle Seamon, Sally M. Benson, Mark D. Zoback, Anthony R. Kovscek
Fuel cell electric vehicles utilizing hydrogen are one option for reducing emissions in the transportation sector. Future hydrogen demand for the mobility markets will be partially dependent on the evolution of state and national policies and incentives. Hydrogen from natural gas plus carbon capture and sequestration (SMR-CCS) is one pathway for manufacturing hydrogen without significant carbon dioxide
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Machine learning-based modelling for geologic CO2 storage in deep saline aquifers. Case study of bunter sandstone in Southern North Sea Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-02-16 Edwin Tillero
This paper presents a machine learning (ML) model designed to speed up the appraisal of geologic CO storage sites by predicting the effectiveness in trapping and accommodating CO in saline aquifers. Considering the urgency of de-risking as much geologic CO storage resources as possible to help with CO emission reduction Paris’ goal, ML-based reservoir modelling has been documented as proper tool when
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Modeling of moving bed CO2 capture process using amine solid adsorbent and its validation using pilot plant test data Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-02-09 Takeshi Okumura, Takahiro Yamaguchi, Shohei Nishibe, Ryohei Numaguchi, Yoshiaki Kawajiri
A modeling study is presented for a pilot plant of a moving bed adsorption process for carbon dioxide (CO) capture using an amine solid sorbent. The pilot plant consists of four towers—adsorption, desorption, and two drying towers. The plant has a capacity of approximately 5 ton-CO/day, which is the largest scale in the world as a moving bed for CO capture using an amine-loaded solid sorbent. Using
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Corrosion and chemical reactions in impure CO2 Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-02-08 J. SONKE, B.H. Morland, G. Moulie, M.S. Franke
Carbon Capture and Storage (CCS) involves capturing, treating, transporting and storage of CO to ensure long-term isolation from the atmosphere. In recent years there has been a significant increase in CCS project proposed and initiated. A number of these proposed projects aim to capture CO from multiple industrial emitters (sources) to reduce the carbon footprint for these emitters.
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Two-dimensional modeling of CO[formula omitted] storage in high heat flow areas: Insights from the Las Tres Virgenes geothermal field, Mexico Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-02-05 Alfonso Reyes-Sandoval, Fernando J. Guerrero, Daniel Pérez-Zárate, Rosa María Prol-Ledesma, Edgar Santoyo
The North America CO Storage Atlas is based on criteria for maximizing safety and minimizing costs. In Mexico, tectonically stable sedimentary basins on the East portion of the country have been identified as potential sites for carbon storage. Here we depart from this view to look into what high heat flow and tectonically active areas can offer to geological carbon storage. We present a Reactive Transport
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Carbon-sequestration geosystems: A new paradigm for understanding geologic storage of CO2, with application to Southwest Ontario, Canada Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-30 Bruce S. Hart
In this paper, I propose a new geoscience paradigm for evaluating potential carbon-sequestration targets. I introduce the term carbon-sequestration geosystem to study and describe portions of sedimentary basins where all the geologic components necessary for the safe and long-term storage of CO2 are present. The purpose of this type of analysis, most appropriately applied at a basin-screening stage
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Viscous fingering in CCS - A general criterion for viscous fingering in porous media Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-28 Jos G. Maas, Niels Springer, Albert Hebing, Jeroen Snippe, Steffen Berg
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Screening of sites for advanced natural gas and carbon dioxide storage in deep aquifers Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-29 Joanna Lewandowska-Śmierzchalska, Stanisław Nagy, Barbara Uliasz-Misiak
This study proposed the use of Analytical Hierarchy Process (AHP) to select potential locations for advanced natural gas storage facilities with a carbon dioxide (CO2) cushion. The preliminary selection and ranking of such sites can be considered a multi-criteria decision-making problem. The selection criteria for geological structures in deep aquifers for underground gas storage were discussed. Based
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Techno-economic analysis of chemical looping air separation using a perovskite oxide sorbent Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-29 Runxia Cai, Emily Krzystowczyk, Beau Braunberger, Fanxing Li, Luke Neal
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Improving the accuracy of CO2 sequestration monitoring in depleted gas reservoirs using the pulsed neutron-gamma logging technique Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-28 Xiaoyu Song, Wensheng Wu, Haoyu Zhang, Lina He, Duo Dong, Xinyue Fu, Ruifeng Wang
With favorable trap conditions and comprehensive infrastructure, depleted gas reservoirs create ideal spaces for the economic and efficient storage of carbon dioxide (CO2). Accurate monitoring of CO2 saturation is important for understanding CO2 storage efficiency and distribution status. This paper proposes a new method for the quantitative monitoring of CO2 saturation in CO2 sequestration projects
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Scaling up 3D printed hybrid sorbents towards (cost) effective post-combustion CO2 capture: A multiscale study Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-23 Shreenath Krishnamurthy, Raf Roelant, Richard Blom, Bjørnar Arstad, Zuoan Li, Marleen Rombouts, Vesna Middelkoop, Adolfo Benedito Borras, Lapo Naldoni
A 3D-printed sorbent containing polyethylene-imine and multi-walled carbon nanotubes (PEI-MWCNT) was studied for post-combustion carbon capture. In this work, the adsorbent was printed on a kg scale and characterized for CO2 adsorption through lab experiments. A 6-step VSA process was simulated using the lab data to capture CO2 from a representative 800 MW power plant. The adsorbent captured >70 %
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Methane adsorption/desorption and carbon dioxide replacement in low permeable coal using LF-NMR-experiments on cylindrical sample under apparent adsorption equilibrium condition Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-23 Hongjie Xu, Jie Ni, Hai Ding, Wangjie Dai, Boming Gou, Yue Zhu, Huihu Liu, Huijing Fang
Accurate simulation of CH4 adsorption/desorption and CO2 displacement in coal reservoirs is essential for understanding methane recovery and carbon dioxide sequestration. Difficulty achieving gas adsorption equilibrium challenges understanding adsorption-desorption and displacement mechanisms. Low field magnetci resonance (LF-NMR) and isothermal adsorption are used to create a novel correction method
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Assessing economic trade-off for advances in amine-based post-combustion capture technology Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-19 Koki Yagihara, Kazuki Fukushima, Hajime Ohno, Alexander Guzman-Urbina, Jialing Ni, Yasuhiro Fukushima
The study aims to evaluate the trade-off relationship between reducing energy consumption through technological improvements, including process modifications and the use of CO2-absorbing solvents, and the increased costs associated with their implementation in power and industrial sectors. Additionally, the economic potentials of heat-integrated CO2 capture and amine solvent degradation are explored
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Role of carbon dioxide capture and storage in energy systems for net-zero emissions in Japan Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-20 Takashi Otsuki, Yoshiaki Shibata, Yuhji Matsuo, Hideaki Obane, Soichi Morimoto
Japan's sixth Strategic Energy Plan mentions that carbon dioxide capture and storage (CCS) is one of the important options to achieve carbon neutrality by 2050; however, the technology faces significant uncertainties regarding its potential and costs. This study quantifies the impact of CCS uncertainties on Japan's net-zero energy mix using an energy system optimization model. The simulation results
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Nanoscale mechanical properties of organic-rich Draupne caprock shale using nano-indentation method, offshore Norway Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-20 Md Jamilur Rahman, Maxim Lebedev, Nazmul Haque Mondol
Mechanical properties of cap and overburden rocks are crucial for field-scale geomechanical modeling and simulation of subsurface CO2 storage and hydrocarbon production. However, obtaining these properties can be challenging due to the lack of core extraction during drilling. The nano-indentation technique offers a solution to this problem by allowing the estimation of mechanical properties using small
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Climate change mitigation with CCUS - A case study with benchmarking for selected countries in adapting the European Union's Green Deal Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-19 Paulina Popielak, Izabela Majchrzak-Kucęba, Dariusz Wawrzyńczak
Carbon Capture Utilization and Storage (CCUS) is a technology highlighted as one of the tools in climate change mitigation and one of the ways to reach the goal of 1.5℃ set by the Paris Agreement. The European Commission (EC) developed this goal by creating and implementing the European Green Deal (EGD) – the European Union's (EU) environmental policy. This paper provides an analysis of environmental
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Reduced-order models for the greenhouse gas leakage prediction from depleted hydrocarbon reservoirs using machine learning methods Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-16 Lei Liu, Mohamed Mehana, Bailian Chen, Maša Prodanović, Michael J. Pyrcz, Rajesh Pawar
Geologic storage of carbon dioxide (CO2) is one of the potential technological options to mitigate human-induced climate change. Depleted hydrocarbon reservoirs are promising candidates for storing CO2. However, these reservoirs contain residual hydrocarbons that may migrate beyond primary reservoirs during CO2 storage operations. Therefore, it is imperative to quantify the leakage risks of residual
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3D printed electrically conductive amine based sorbent for CO2 capture Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-16 Marijke Jacobs, Yoran De Vos, Marleen Rombouts
CO2 capture technologies are key to the ongoing energy transition towards a low-carbon future. Solid adsorption is a promising technology for carbon capture with potential energy savings for regeneration of the material compared to liquid absorption. An interesting route for regeneration is electrical swing adsorption (ESA). An electrically conductive sorbent for direct air capture (DAC) was developed
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Application of a Geochemically Informed Leak Detection (GILD) Model to CO2 Injection Sites on the United States Gulf Coast Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-16 Jiaan Wang, Wei Xiong, Mitchell J. Small, James B. Gardiner, Brian W. Stewart, R. Burt Thomas, J. Alexandra Hakala, Christina L. Lopano
The Gulf Coast region possesses great potential for CO2 enhanced oil recovery (EOR) and CO2 storage. A geochemically informed leak detection (GILD) model has been applied to CO2 injection sites on the Gulf Coast with considerations of measurement variability. The Jasper aquifer in Montgomery County, Texas, was chosen to demonstrate the method. Based on background data from wells in the area, combinations
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An efficient deep learning-based workflow for CO2 plume imaging considering model uncertainties with distributed pressure and temperature measurements Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-16 Masahiro Nagao, Changqing Yao, Tsubasa Onishi, Hongquan Chen, Akhil Datta-Gupta, Srikanta Mishra
Monitoring CO2 plumes throughout the operation of geologic CO2 sequestration projects is essential to environmental safety. The evolution of underground CO2 saturation can be predicted using high-fidelity numerical simulations. However, high-fidelity simulations can be prohibitively expensive to compute. As a result of recent developments in data-driven models, rapid predictions of the CO2 plume can
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Assessing the potential for CO2 storage in shallow coal seams using gas geochemistry: A case study from Qinshui Basin, North China Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-10 Biying Chen, Lujia Fang, Zhanjie Xu, Finlay M. Stuart, Guofu Li, Sheng Xu
Shallow coal seams are a target reservoir for CO2 sequestration. So far efforts to trace CO2 sequestration by coal beds have largely focussed on short-term monitoring or theoretical modelling. To evaluate the feasibility of safe long-term storage of CO2 in shallow coal beds, we report the first systematic gas geochemical study at a shallow injection site in Shizhuang, Qinshui Basin, one year after
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Cost-optimal CO2 capture and transport infrastructure—A case study of Sweden Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-08 Sebastian Karlsson, Fredrik Normann, Filip Johnsson
This work applies a mixed integer cost-minimisation model to identify cost-optimal carbon capture and storage (CCS) infrastructure systems. The modelling applies two types of incentives for CCS implementation: carbon pricing, and binding emissions budgets. Both incentive schemes are applied with and without accounting for CO2 capture from biogenic emissions sources. In the case of CO2 pricing, biogenic
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Potential for CO2 storage in shale basins in China Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-09 Jianpeng Wang, Ke Wang, Xuanlong Shan, Kevin G. Taylor, Lin Ma
China is the second largest shale gas and oil producing country possessing large and significant shale basins, and it is also one of the top carbon emitting countries. Therefore, there is significant potential to store CO2 in shales in China to remove the carbon emission and enhance and gas recovery simultaneously. This research provides a comprehensive prediction of potentials of CO2 storage in major
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CO2 flow modeling in a coupled wellbore and aquifer system: Details of pressure, temperature, and dry-out Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-10 Nematollah Zamani, Curtis M. Oldenburg, Jonas Solbakken, Morten G. Aarra, Patrick Kowollik, Hakan Alkan, Mohammed M. Amro, Taofik H. Nassan, Jose K.P. Estrada, Oleksandr Burachok
In order to understand the details of thermal and hydrologic processes attending CO2 injection into a deep aquifer in the context of Carbon Capture and Storage (CCS), we have carried out coupled well-reservoir simulations of CO2 injection using the simulator T2WELL-ECO2M. We focus on the injection of cold, dry CO2 into a warm aquifer and analyze in detail the thermal and hydraulic processes of the
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Advancing spatiotemporal forecasts of CO2 plume migration using deep learning networks with transfer learning and interpretation analysis Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-07 Ming Fan, Hongsheng Wang, Jing Zhang, Seyyed A. Hosseini, Dan Lu
Accurate and timely forecasts of CO2 plume distribution throughout the injection and post-injection phases are crucial for detecting plume migration, assessing leakage risks, and supporting operational decisions in geologic carbon storage (GCS). Current convolutional neural network-based approaches primarily focus on spatial information and overlook temporal dependencies in plume distributions, thus
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Feasibility of targeted active seismic monitoring of geological carbon storage using refracted waves Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-05 Roman Pevzner, Hadi Nourollah, Boris Gurevich
Active seismic monitoring is a powerful technique that can be employed for conformance and assurance monitoring in geological carbon storage (GCS). This technology was successfully deployed in small-scale research studies and large-scale commercial projects. Usually, in land time-lapse surveys, to ensure time-lapse data quality, the seismic survey is designed to have a very high trace density. This
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Experimental study and kinetic modeling of high temperature and pressure CO2 mineralization Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-06 Maximilian Berndsen, Selçuk Erol, Taylan Akın, Serhat Akın, Isabella Nardini, Adrian Immenhauser, Mathias Nehler
The potential for in-situ CO2 sequestration was analyzed experimentally for one basaltic hyaloclastite sample from the Nesjavellir geothermal reservoir in Iceland and three metasedimentary rock samples from the Kızıldere geothermal field in Turkey. Based on batch reaction experiments, this paper demonstrates the interaction between a CO2 gas-charged fluid and rock samples from these reservoirs. The
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Analysis and insights of the second-generation ternary AMP-PZ-MEA solvents for post-combustion carbon capture: Absorption-regeneration performance Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-06 Rattanaporn Apaiyakul, Prathana Nimmanterdwong, Thitiya Kanchanakungvalkul, Papitchaya Puapan, Somkiat Ngamprasertsith, Heilei Liu, Hongxia Gao, Zhiwu Liang, Paitoon Tontiwachwuthikul, Teerawat Sema
This work comprehensively investigates absorption and regeneration performance of the second-generation AMP-PZ-MEA in comparison with the first-generation AMP-PZ-MEA, the benchmark 5 M MEA, and the conventional MEA at the same amine concentration. The performance indicators include CO2 absorption capacity, mass transfer coefficient, CO2 removal percentage, amount of desorbed CO2, initial CO2 desorption
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An efficient hybrid methodology for optimization of CO2 Huff-n-Puff EOR and sequestration in tight oil reservoirs Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-06 Shuaiwei Ding, Qian Liu, Peng Li, Lei Wang, Yuanduo Li, Meng Zhang, Chuan Xu, Jinfeng Ma
CO2 Huff-n-Puff is one of the effective enhanced oil recovery (EOR) methods in tight oil reservoirs, which is also attractive to sequestrating CO2 underground. Therefore, CO2 Huff-n-Puff EOR and sequestration project is particularly important both for oil and gas industry and environmental protection field. However, the technique has not gained industry-wide adoption partly due to knowledge gaps in
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Time-lapse seismic inversion for CO2 saturation with SeisCO2Net: An application to Frio-II site Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-06 Zi Xian Leong, Tieyuan Zhu, Alexander Y. Sun
Seismic monitoring of geological CO2 storage (GCS) involves highly nonlinear seismic inversion and petrophysical inversion, making it challenging to estimate CO2 volume efficiently and detect possible early CO2 leakages. Deep learning (DL) using convolutional neural networks (CNNs) has shown promise in solving highly nonlinear seismic inversion problems. However, direct estimation of CO2 plume extent/saturation
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Environmental impacts of carbon capture, transport, and storage supply chains: Status and the way forward Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2024-01-02 Johannes Burger, Julian Nöhl, Jan Seiler, Paolo Gabrielli, Pauline Oeuvray, Viola Becattini, Adriana Reyes-Lúa, Luca Riboldi, Giovanni Sansavini, André Bardow
Carbon capture, transport, and storage (CCTS) enables the decarbonization of industrial emitters. CCTS is regarded as crucial in reaching net-zero emission targets but currently stands far behind the required scale. CCTS deployment for point sources may be accelerated by CCTS chains relying on currently available technology, called pioneering supply chains. In particular, transporting CO2 in standard
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Long range acoustic detection of gas bubbles in a shallow water coastal environment Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2023-12-31 Tim Ryan, Ben Scoulding, Ryan Downie, Jo Myers
As the world economy moves to net zero carbon dioxide (CO2) emissions, carbon capture and storage (CCS) is recognised a mitigation mechanism in the suite of technology options. Liquified CO2 injection into offshore subsea reservoirs will be one of the CCS strategies used. Despite being improbable, CO2 leaks could occur and impact the effectiveness of this CO2 mitigation option and undermine confidence
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Feasibility of carbon-capturing in building heating systems: A life cycle thinking-based approach Int. J. Greenh. Gas. Con. (IF 3.9) Pub Date : 2023-12-31 Don Rukmal Liyanage, Kasun Hewage, Hirushie Karunathilake, Rehan Sadiq