Elliott Read
Health and Safety Executive
6 Papers
Elliott Read is an academic researcher from Health and Safety Executive. The author has contributed to research in topics: Thermal runaway & Chemistry. The author has an hindex of 1, co-authored 1 publications.
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Papers
Numerical and Experimental Characterization of High Energy Density 21700 Lithium-ion Battery Fires
C. Madhav Rao Vendra,Ashish V. Shelke,Jonathan E. H. Buston,Jason Gill,Daniel Howard,Elliott Read,Ahmed Abaza,Brian Guy Cooper,Jennifer X. Wen +8 more
TL;DR: In this article , an analytical model has been developed to predict cell internal pressure evolution following vent opening, using the measured cell internal temperature and EV-ARC canister pressure as input data.
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Combined numerical and experimental studies of 21700 lithium-ion battery thermal runaway induced by different thermal abuse
Ashish V. Shelkea,Jonathan E. H. Buston,Jason Gill,Daniel Howard,Rhiannon C. E. Williams,Elliott Read,Ahmed Abaza,Brian Guy Cooper,Philp Richards,Jennifer X. Wen +9 more
TL;DR: In this article , the authors developed a CFD approach for heating induced thermal runaway incorporating heat dissipation and established the critical temperature to trigger thermal runaway as 131 and 132 °C.
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A Simplified Mathematical Model for Heating-Induced Thermal Runaway of Lithium-Ion Batteries
Haodong Chen,Jonathan E. H. Buston,Jason Gill,Daniel Howard,Rhiannon C. E. Williams,Elliott Read,Ahmed Abaza,Brian Cooper,Jennifer X. Wen +8 more
TL;DR: In this paper, a simplified mathematical model for the evolution of heating-induced thermal runaway (TR) of lithium-ion batteries was developed, which only requires a minimum number of input parameters, and some of these unknown parameters can be obtained from accelerating rate calorimeter (ARC) tests and previous studies.
Characterizing and predicting 21700 NMC lithium-ion battery thermal runaway induced by nail penetration
Ashish V. Shelke,Jonathan E. H. Buston,Jason Gill,Daniel Howard,Katie C. Abbott,Steven L. Goddard,Elliott Read,Gemma Howard,Ahmed Abaza,Brian Guy Cooper,Jennifer X. Wen +10 more
TL;DR: In this article , a generic predictive tool is developed within the frame of the in-house version of OpenFOAM for nail induced thermal runaway (TR) in cylindrical cells, which treats the cell as a lumped block with anisotropic thermal conductivities and considers heat generation due to nail induced internal short circuit resistance, exothermic decomposition reactions and heat dissipation through convective and radiative heat transfer.
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