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Enabling secure subsurface storage in future energy systems (2023)

Miocic, Johannes M. ; Hienemann, Niklas ; Edlmann, Katriona ; [et al.]

London : The Geological Society

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Keywords: Underground storage Technological innovations ; Energy storage Technological innovations ; Geological carbon sequestration Technological innovations ; Gas reservoirs Forecasting ; Energy security Forecasting ; Stockage souterrain - Innovations ; Énergie - Stockage - Innovations ; Piégeage du carbone géologique - Innovations ; Réservoirs de gaz naturel (Géologie) - Prévision ; Sécurité énergétique - Prévision ; Case studies ; Case studies ; Études de cas

Description / Table of Contents: "The secure storage of energy and carbon dioxide in subsurface geological formations plays a crucial role in transitioning to a low-carbon energy system. The suitability and security of subsurface storage sites rely on the geological and hydraulic properties of the reservoir and confining units. Additionally, their ability to withstand varying thermal, mechanical, hydraulic, biological and chemical conditions during storage operations is essential. Each subsurface storage technology has distinct geological requirements and faces specific economic, logistical, public and scientific challenges. As a result, certain sites can be better suited than others for specific low-carbon energy applications. This Special Publication provides a summary of the state of the art in subsurface energy and carbon dioxide storage. It includes 20 case studies that offer insights into site selection, characterization of reservoir processes, the role of caprocks and fault seals, as well as monitoring and risk assessment needs for subsurface storage operations"--Publisher's description

Type of Medium: Book

Pages: vii, 514 Seiten , Illustrationen, Karten, Diagramme , 26 cm

ISBN: 9781786205766 , 1786205769

Series Statement: Geological Society special publication no. 528

URL: https://www.lyellcollection.org/toc/sp/528/1

Language: English

Note: Includes bibliographical references and index , Sections: Overarching topics -- Site selection and characterization -- Reservoir processes -- Caprocks and fault seals -- Monitoring and risk assessment -- New subsurface storage concepts.

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Gas hydrates in sustainable chemistry (2020)

Hassanpouryouzband, Aliakbar ; Joonaki, Edris ; Farahani, Mehrdad Vasheghani ; [et al.]

Royal Society of Chemistry

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Publication Date: 2022-05-26

Description: © The Author(s), 2020. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Hassanpouryouzband, A., Joonaki, E., Farahani, M. V., Takeya, S., Ruppel, C., Yang, J., English, N. J., Schicks, J. M., Edlmann, K., Mehrabian, H., Aman, Z. M., & Tohidi, B. Gas hydrates in sustainable chemistry. Chemical Society Reviews, 49(15), (2020): 5225-5309, doi:10.1039/c8cs00989a.

Description: Gas hydrates have received considerable attention due to their important role in flow assurance for the oil and gas industry, their extensive natural occurrence on Earth and extraterrestrial planets, and their significant applications in sustainable technologies including but not limited to gas and energy storage, gas separation, and water desalination. Given not only their inherent structural flexibility depending on the type of guest gas molecules and formation conditions, but also the synthetic effects of a wide range of chemical additives on their properties, these variabilities could be exploited to optimise the role of gas hydrates. This includes increasing their industrial applications, understanding and utilising their role in Nature, identifying potential methods for safely extracting natural gases stored in naturally occurring hydrates within the Earth, and for developing green technologies. This review summarizes the different properties of gas hydrates as well as their formation and dissociation kinetics and then reviews the fast-growing literature reporting their role and applications in the aforementioned fields, mainly concentrating on advances during the last decade. Challenges, limitations, and future perspectives of each field are briefly discussed. The overall objective of this review is to provide readers with an extensive overview of gas hydrates that we hope will stimulate further work on this riveting field.

Description: A. H. and K. E. were partially supported by funding from UKRI-EPSRC (grant number EP/S027815/1). C. R. was partially supported by DOE-USGS Interagency agreement DE-FE0023495. C. R. thanks L. Stern and W. Waite for insights that improved her contributions. E. J. is partially supported by Flow Programme project sponsored by Department for Business, Energy and Industrial Strategy (BEIS), UK. Any use of trade, firm or product name is for descriptive purposes only and does not imply endorsement by the U.S. Government.

Repository Name: Woods Hole Open Access Server

Type: Article

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