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Thermal Abuse Modeling of Li-Ion Cells and Propagation in Modules.

DE2009946329

Publication Date	2008
Page Count	37
Abstract	The objectives of this paper are: (1) continue to explore thermal abuse behaviors of Li-ion cells and modules that are affected by local conditions of heat and materials; (2) use the 3D Li-ion battery thermal abuse 'reaction' model developed for cells to explore the impact of the location of internal short, its heating rate, and thermal properties of the cell; (3) continue to understand the mechanisms and interactions between heat transfer and chemical reactions during thermal runaway for Li-ion cells and modules; and (4) explore the use of the developed methodology to support the design of abuse-tolerant Li-ion battery systems.
Keywords	Lithium ions Electric batteries Energy storage Chemical reactions Design Heat transfer Heating rate Simulation Thermodynamic properties
Source Agency	Technical Information Center Oak Ridge Tennessee
Corporate Authors	National Renewable Energy Lab., Golden, CO.; Department of Energy, Washington, DC. Office of Energy Efficiency and
Supplemental Notes	Sponsored by Department of Energy, Washington, DC. Office of Energy Efficiency and Renewable Energy.
Document Type	Technical Report
NTIS Issue Number	200914

Thermal Abuse Modeling of Li-Ion Cells and Propagation in Modules.

Thermal Abuse Modeling of Li-Ion Cells and Propagation in Modules.
DE2009946329

Publication Date	2008
Page Count	37
Abstract	The objectives of this paper are: (1) continue to explore thermal abuse behaviors of Li-ion cells and modules that are affected by local conditions of heat and materials; (2) use the 3D Li-ion battery thermal abuse 'reaction' model developed for cells to explore the impact of the location of internal short, its heating rate, and thermal properties of the cell; (3) continue to understand the mechanisms and interactions between heat transfer and chemical reactions during thermal runaway for Li-ion cells and modules; and (4) explore the use of the developed methodology to support the design of abuse-tolerant Li-ion battery systems.
Keywords	Lithium ions Electric batteries Energy storage Chemical reactions Design Heat transfer Heating rate Simulation Thermodynamic properties
Source Agency	Technical Information Center Oak Ridge Tennessee
Corporate Authors	National Renewable Energy Lab., Golden, CO.; Department of Energy, Washington, DC. Office of Energy Efficiency and
Supplemental Notes	Sponsored by Department of Energy, Washington, DC. Office of Energy Efficiency and Renewable Energy.
Document Type	Technical Report
NTIS Issue Number	200914