基本信息
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职业迁徙
个人简介
My research in a nutshell
My research focuses on solid Earth geochemistry and the study of geochemical processes, ranging from low-temperature reactions such as scaling and fluid-rock interactions or heavy metal contamination to high-temperature environments involving mantle geochemistry, geochemical processes occurring in the crust and age-dating of zircons. My current focus is on the use of mineral alteration and mining waste as a possible sink for atmospheric CO2 and general fluid-rock interactions.
Areas of research
Mineral alteration and weathering relating to carbon capture and storage means involving enhanced weathering processes
Recycling of building materials and mining waste for possible use in CO2 mitigating processes for carbon capture and storage
Mantle geochemistry and crustal processes affecting the geochemistry of basalts
Current projects:
Enhanced weathering and carbonation of olivine
This project revolves around the use of olivine weathering as a mean for capturing and storing atmospheric CO2. The project involves laboratory-based experiments on olivine-fluid reactions using various fluid types and various temperatures and CO2 pressures. In addition to weathering experiments at ambient conditions, I also study the processes relating to carbonation of olivine resulting in the formation of magnesite, a Mg-rich carbonate phase capable of storing CO2 over long periods of time. Moreover, I am currently developing experimental set-ups to be used for experiments mimicking the use of olivine as a mean for carbon capture and storage in the Danish nature.
This research is funded through the Independent Research Fund Denmark (through Kristoffer Szilas)
Potential for long-term CO2 storage through enhanced weathering of Ca-silicate minerals and materials
This project will commence in December 2023 and focuses on the potential CO2 storage posed by weathering and carbonation of Ca-Al silicate minerals and building- and mining waste associated with anorthosite mining. The project will be focused on laboratory-based experiments altering various Ca-Al silicate materials in the presence of CO2 and water at various temperatures and pressure. The work will moreover involve developing geochemical models describing the alteration of such materials to evaluate their potential to capture and store CO2 through enhanced weathering and carbonation.
This research is funded through the Independent Research Fund Denmark (starting from December 2023)
Olivine chemistry, mantle heterogeneity and crustal processes affecting basalt geochemistry
This project relates to work during my PhD where I studied olivine chemistry variations and the importance of such variations to the mantle source beneath Iceland. Olivine is usually the first mineral to crystallise during the ascent of mantle-derived melts and is stable over a large range in pressure, temperature, and melt composition. Because of this, the chemistry of olivine is often used as a proxy for primitive melt compositions prior to secondary modifications occurring in the uppermost part of the mantle and the crust. Iceland is the largest subaerial section of the global mid-ocean-ridge system and reflects the current location of the Iceland mantle plume. Previous work has shown that the mantle beneath Iceland is chemically heterogenous, and this has been attributed in part to the presence of recycled crust entrained within the upwelling plume. The recognition of a chemically heterogenous plume, together with the widespread occurrence of primitive basalts, makes Iceland an ideal location to identify the properties of recycled crust in a mantle plume from the chemical composition of high-forsterite olivine.
Aside from the work on olivine chemistry, I study melt and mineral evolution of Icelandic basalts, from samples sampling the most enriched sources of the Icelandic mantle and fresh basalts from the 2021 and 2022 Fagradalsfjall eruptions.
Laboratory facility responsibilities:
In charge of the X-Ray diffraction laboratory facilities and mineral weathering laboratory (including a high-pressure titanium Parr reactor and facilities for enhanced weathering experiments)
研究兴趣
论文共 15 篇作者统计合作学者相似作者
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M. A. Stow,J. Prytulak,K. W. Burton,G. M. Nowell,E. W. Marshall,S. A. Halldorsson,S. Matthews,M. B. Rasmussen, E. Ranta Section,A. Caracciolo
GEOCHEMICAL PERSPECTIVES LETTERS (2023): 54-58
Maren Kahl,Euan J.F. Mutch,John Maclennan, Dan Morgan, Fiona Couperthwaite,Enikő Bali, Thor Thordarson,Guðmundur H. Guðfinnsson,Richard Walshaw,Iris Buisman, Stephan Buhre, Quinten H. A. van der Meer,
crossref(2023)
M. Kahl, E. J. F. Mutch,J. Maclennan, D. J. Morgan, F. Couperthwaite, E. Bali, T. Thordarson, G. H. Guofinnsson, R. Walshaw, I. Buisman, S. Buhre, Q. H. A. van der Meer,
GEOLOGYno. 2 (2023): 184-188
Maren Kahl,Euan Mutch,John Maclennan, Dan Morgan,Fiona Couperthwaite,Enikő Bali,Thor Thordarson,Guðmundur Guðfinnsson,Richard Walshaw,Iris Buisman, Stephan Buhre,Quinten van der Meer,
Goldschmidt2022 abstracts (2022)
crossref(2022)
crossref(2022)
Saemundur A. Halldorsson,David R. Hilton,Edward W. Marshall,Eemu Ranta, Andri Ingvason,Subrata Chakraborty,Johann Gunnarsson Robin,Maja B. Rasmussen,Sally A. Gibson,Shuhei Ono,Paolo Scarsi, Tsegeye Abebe,
Goldschmidt2022 abstracts (2022)
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