S
Solomon Brown
Researcher at University of Sheffield
Publications - 111
Citations - 3457
Solomon Brown is an academic researcher from University of Sheffield. The author has contributed to research in topics: Pipeline transport & Energy storage. The author has an hindex of 18, co-authored 93 publications receiving 2020 citations. Previous affiliations of Solomon Brown include University College London.
Papers
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Journal ArticleDOI
Carbon capture and storage (CCS): the way forward
Mai Bui,Claire S. Adjiman,André Bardow,Edward J. Anthony,Andy Boston,Solomon Brown,Paul S. Fennell,Sabine Fuss,Amparo Galindo,Leigh A. Hackett,Jason P. Hallett,Howard J. Herzog,George Jackson,Jasmin Kemper,Samuel Krevor,Geoffrey C. Maitland,Michael Matuszewski,Ian S. Metcalfe,Camille Petit,Graeme Puxty,Jeffrey A. Reimer,David Reiner,Edward S. Rubin,Stuart A. Scott,Nilay Shah,Berend Smit,Berend Smit,J. P. Martin Trusler,Paul A. Webley,Jennifer Wilcox,Niall Mac Dowell +30 more
TL;DR: In this article, the authors review the current state-of-the-art of CO2 capture, transport, utilisation and storage from a multi-scale perspective, moving from the global to molecular scales.
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Modelling the impact of stream impurities on ductile fractures in CO2 pipelines
TL;DR: In this article, the authors describe the development, validation and application of a fully coupled dynamic boundary fracture model for predicting ductile fracture behaviour in CO 2 pipelines. But, the model is not suitable for the case of CO 2 lines.
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A homogeneous relaxation flow model for the full bore rupture of dense phase CO2 pipelines
TL;DR: In this paper, a homogeneous relaxation flow model was developed to simulate the discharge behavior following the full bore rupture of dense phase CO 2 pipelines, and the model's robustness was successfully demonstrated based on a series of hypothetical shock tube tests.
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Pursuing safer batteries: Thermal abuse of LiFePO4 cells
TL;DR: In this article, accelerated rate calorimetry (ARC) and oven exposure were used to investigate thermal runaway (TR) in lithium-ion cells, and it was shown that the presence of the cathode and electrolyte reactions leads to an increase in the severity of a TR event for oven temperatures above 200 ∘ C.
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Modelling three-phase releases of carbon dioxide from high-pressure pipelines
TL;DR: In this article, a three-phase flow model for predicting the transient outflow following the failure of pressurised CO2 pipelines and vessels is proposed, which is successfully validated against experimental data obtained from high-pressure CO2 releases performed as part of the FP7 CO2PipeHaz project (wwwco2pipehazeu)