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Mechanisms for CO2 Sequestration in Geological Formations and Enhanced Gas Recovery

2015-10-28 Technology & Engineering
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Release : 2015-10-28
Genre : Technology & Engineering
Kind : eBook
Book Rating : 875/5 ( reviews)

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Book Synopsis Mechanisms for CO2 Sequestration in Geological Formations and Enhanced Gas Recovery by : Roozbeh Khosrokhavar

Download or read book Mechanisms for CO2 Sequestration in Geological Formations and Enhanced Gas Recovery written by Roozbeh Khosrokhavar. This book was released on 2015-10-28. Available in PDF, EPUB and Kindle. Book excerpt: This book gives background information why shale formations in the world are important both for storage capacity and enhanced gas recovery (EGR). Part of this book investigates the sequestration capacity in geological formations and the mechanisms for the enhanced storage rate of CO2 in an underlying saline aquifer. The growing concern about global warming has increased interest in geological storage of carbon dioxide (CO2). The main mechanism of the enhancement, viz., the occurrence of gravity fingers, which are the vehicles of enhanced transport in saline aquifers, can be visualized using the Schlieren technique. In addition high pressure experiments confirmed that the storage rate is indeed enhanced in porous media. The book is appropriate for graduate students, researchers and advanced professionals in petroleum and chemical engineering. It provides the interested reader with in-depth insights into the possibilities and challenges of CO2 storage and the EGR prospect.

CO2 Geological Sequestration and Utilization for Enhanced Gas/oil Recovery from Molecular Perspectives

2022 Carbon dioxide mitigation
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Release : 2022
Genre : Carbon dioxide mitigation
Kind : eBook
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Book Synopsis CO2 Geological Sequestration and Utilization for Enhanced Gas/oil Recovery from Molecular Perspectives by : Mingshan Zhang

Download or read book CO2 Geological Sequestration and Utilization for Enhanced Gas/oil Recovery from Molecular Perspectives written by Mingshan Zhang. This book was released on 2022. Available in PDF, EPUB and Kindle. Book excerpt: Atmospheric CO2 concentration has been gradually growing since the industrial revolution, leading to climate change and global warming. As a result, carbon capture, utilization, and sequestration (CCUS) has become utterly important for human society. CO2 geological sequestration in depleted shale gas reservoirs is regarded as a promising strategy to mitigate the emission of CO2. As one of the typical clay minerals in shale reservoirs, kaolinite presents two structurally and chemically distinct basal surfaces known as siloxane and gibbsite surfaces which can significantly affect CO2 adsorption in kaolinite nanopores, especially in the presence of water. Nevertheless, due to the complicated surface properties and pore structures, it is practically impossible to distinguish the contributions from two distinct kaolinite surfaces for CO2 adsorption. In addition, to the best of our knowledge, the effect of moisture on CO2 adsorption in different kaolinite nanopores is rarely reported. We systematically explored CO2 adsorption in partially water-saturated kaolinite nanopores by molecular dynamics (MD) and Grand canonical Monte Carlo (GCMC) simulations using the flexible clay model. In the absence of water, CO2 presents a stronger adsorption ability on gibbsite surfaces. In gibbsite pores, the water tends to spread out on the surface forming a thin film while water bridges are observed in siloxane pores. In siloxane mesopores, a more CO2-wet surface appears as pressure increases, while it is not obvious in micropores because of stronger confinement effects. In general, the presence of water will result in the reduction of CO2 sequestration in both gibbsite and siloxane pores, while a slight enhancement is observed in siloxane mesopores when the pressure is quite low. CO2 utilization for enhancing gas recovery has been attracting extensive attention as it can greatly alleviate the financial burden from CO2 capture while it can also achieve CO2 sequestration in the deep formations. Compared with the conventional reservoirs, shale has heterogeneous rock compositions consisting of organic and inorganic matters and some shale formations contain anextensive number of heavier alkanes, such as ethane (C2) and propane (C3). While CO2 huff-n-puff is proved to be an effective method to enhance recovery of methane (C1), competitive adsorption between shale gas mixtures (C1-C2-C3) and CO2 in organic and clay minerals remains unexplored. On the other hand, the different recovery mechanisms of hydrocarbon mixtures during pressure drop, CO2 huff, and CO2 huff are still unclear. We used Grand Canonical Monte Carlo (GCMC) simulations to study competitive sorption of C1-C2-C3 and C1-C2-C3-CO2 mixtures in shale organic and inorganic nanopores under different production schemes. We found that while C1 in the adsorption layer can be readily recovered during pressure drawdown, C2 and C3 are trapped in pores, especially in organic micropores. CO2 injection can effectively recover each component in the adsorption layer in organic pores, while in inorganic pores, the adsorption layer is dominated by CO2 molecules, displacing all hydrocarbon components. Additionally, application of CO2 responsive surfactants provides a novel idea for economical and sustainable oil production. While the experimental work can test and design a promising smart surfactant formula for efficient O/W emulsification and demulsification processes, the microscopic structural properties and interface hydration structures related to CO2 switching mechanisms from molecular perspectives remain unclear. MD simulations are employed to carefully study the interfacial properties of n-heptane/water emulsion before and after purging CO2 using lauric acids (LA) as the surfactant. Before purging CO2, the deprotonated lauric acid (DLA) help to form and stabilize O/W emulsion droplets in aqueous solution due to high interface activity and strong surface electrostatic repulsion, whereas the protonation of lauric acid (PLA) arising from CO2 injection results in the coalescence of emulsion droplets thanks to the increased IFT and surface charge neutralization, which is also in line the potential mean force (PMF) calclation resutls.

Geologic Carbon Sequestration

2016-05-11 Science
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Release : 2016-05-11
Genre : Science
Kind : eBook
Book Rating : 192/5 ( reviews)

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Book Synopsis Geologic Carbon Sequestration by : V. Vishal

Download or read book Geologic Carbon Sequestration written by V. Vishal. This book was released on 2016-05-11. Available in PDF, EPUB and Kindle. Book excerpt: This exclusive compilation written by eminent experts from more than ten countries, outlines the processes and methods for geologic sequestration in different sinks. It discusses and highlights the details of individual storage types, including recent advances in the science and technology of carbon storage. The topic is of immense interest to geoscientists, reservoir engineers, environmentalists and researchers from the scientific and industrial communities working on the methodologies for carbon dioxide storage. Increasing concentrations of anthropogenic carbon dioxide in the atmosphere are often held responsible for the rising temperature of the globe. Geologic sequestration prevents atmospheric release of the waste greenhouse gases by storing them underground for geologically significant periods of time. The book addresses the need for an understanding of carbon reservoir characteristics and behavior. Other book volumes on carbon capture, utilization and storage (CCUS) attempt to cover the entire process of CCUS, but the topic of geologic sequestration is not discussed in detail. This book focuses on the recent trends and up-to-date information on different storage rock types, ranging from deep saline aquifers to coal to basaltic formations.

Carbon Dioxide Capture for Storage in Deep Geologic Formations - Results from the CO2 Capture Project

2015-01-03 Science
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Release : 2015-01-03
Genre : Science
Kind : eBook
Book Rating : 016/5 ( reviews)

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Book Synopsis Carbon Dioxide Capture for Storage in Deep Geologic Formations - Results from the CO2 Capture Project by : David C Thomas

Download or read book Carbon Dioxide Capture for Storage in Deep Geologic Formations - Results from the CO2 Capture Project written by David C Thomas. This book was released on 2015-01-03. Available in PDF, EPUB and Kindle. Book excerpt: Over the past decade, the prospect of climate change resulting from anthropogenic CO2 has become a matter of growing public concern. Not only is the reduction of CO2 emissions extremely important, but keeping the cost at a manageable level is a prime priority for companies and the public, alike. The CO2 capture project (CCP) came together with a common goal in mind: find a technological process to capture CO2 emissions that is relatively low-cost and able be to be expanded to industrial applications. The Carbon Dioxide Capture and Storage Project outlines the research and findings of all the participating companies and associations involved in the CCP. The final results of thousands of hours of research are outlined in the book, showing a successful achievement of the CCP's goals for lower cost CO2 capture technology and furthering the safe, reliable option of geological storage. The Carbon Dioxide Capture and Storage Project is a valuable reference for any scientists, industrialists, government agencies, and companies interested in a safer, more cost-efficient response to the CO2 crisis.

Negative Emissions Technologies and Reliable Sequestration

2019-04-08 Science
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Release : 2019-04-08
Genre : Science
Kind : eBook
Book Rating : 529/5 ( reviews)

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Book Synopsis Negative Emissions Technologies and Reliable Sequestration by : National Academies of Sciences, Engineering, and Medicine

Download or read book Negative Emissions Technologies and Reliable Sequestration written by National Academies of Sciences, Engineering, and Medicine. This book was released on 2019-04-08. Available in PDF, EPUB and Kindle. Book excerpt: To achieve goals for climate and economic growth, "negative emissions technologies" (NETs) that remove and sequester carbon dioxide from the air will need to play a significant role in mitigating climate change. Unlike carbon capture and storage technologies that remove carbon dioxide emissions directly from large point sources such as coal power plants, NETs remove carbon dioxide directly from the atmosphere or enhance natural carbon sinks. Storing the carbon dioxide from NETs has the same impact on the atmosphere and climate as simultaneously preventing an equal amount of carbon dioxide from being emitted. Recent analyses found that deploying NETs may be less expensive and less disruptive than reducing some emissions, such as a substantial portion of agricultural and land-use emissions and some transportation emissions. In 2015, the National Academies published Climate Intervention: Carbon Dioxide Removal and Reliable Sequestration, which described and initially assessed NETs and sequestration technologies. This report acknowledged the relative paucity of research on NETs and recommended development of a research agenda that covers all aspects of NETs from fundamental science to full-scale deployment. To address this need, Negative Emissions Technologies and Reliable Sequestration: A Research Agenda assesses the benefits, risks, and "sustainable scale potential" for NETs and sequestration. This report also defines the essential components of a research and development program, including its estimated costs and potential impact.

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