Add to ORKGThe risk of spreading of fire between Lithium-ion battery cells is assessed using Finite-Element (FE) modelling of the heat transfer initiated by a thermal runaway. The results are contrasted to experimental data where the heat release rate (HRR) is utilized as an input to the simulation. It is found that the temperature increase in a neighbouring cell can be quantitatively estimated during the early stages of the fire taking into account the anisotropic thermal conductivity of the cells
The high capacity and voltage properties demonstrated by lithium-ion batteries render them as the pr...
Exposure of lithium ion battery (LIB) to abnormal operating conditions may result in rapid self-heat...
Preventing cell-cell thermal runaway propagation and flames/sparks from exiting battery enclosure is...
The risk of spreading of fire between Lithium-ion battery cells is assessed using Finite-Element (FE...
The objective of the present work is to assess the risk of spreading of fire between Lithium-ion bat...
Lithium-ion batteries are seen as part of the solution to meet the environmental concerns for many a...
A model is presented for predicting the cell-to-cell propagation of a thermal runaway/fire in a lith...
Lithium-ion battery technologies are increasingly used in electric vehicles as well for electrical e...
Insight of the thermal characteristics and potential flame spread over lithium-ion battery (LIB) mod...
With the increasing demand for energy capacity and power density in battery systems, the thermal saf...
Over the past two decades, Lithium-ion (Li-ion) batteries have become ubiquitous in society. Their r...
Combined numerical and experimental studies have been carried out to investigate thermal runaway (TR...
The proliferating thermal runaway accidents are still the main obstacle that hinders the extensive a...
Thermal runaway (TR) is a significant safety concern of Li-ion Batteries (LIBs) that can lead to haz...
High energy density lithium-ion batteries (LIBs) are well suited for electrical vehicle applications...
The high capacity and voltage properties demonstrated by lithium-ion batteries render them as the pr...
Exposure of lithium ion battery (LIB) to abnormal operating conditions may result in rapid self-heat...
Preventing cell-cell thermal runaway propagation and flames/sparks from exiting battery enclosure is...
The risk of spreading of fire between Lithium-ion battery cells is assessed using Finite-Element (FE...
The objective of the present work is to assess the risk of spreading of fire between Lithium-ion bat...
Lithium-ion batteries are seen as part of the solution to meet the environmental concerns for many a...
A model is presented for predicting the cell-to-cell propagation of a thermal runaway/fire in a lith...
Lithium-ion battery technologies are increasingly used in electric vehicles as well for electrical e...
Insight of the thermal characteristics and potential flame spread over lithium-ion battery (LIB) mod...
With the increasing demand for energy capacity and power density in battery systems, the thermal saf...
Over the past two decades, Lithium-ion (Li-ion) batteries have become ubiquitous in society. Their r...
Combined numerical and experimental studies have been carried out to investigate thermal runaway (TR...
The proliferating thermal runaway accidents are still the main obstacle that hinders the extensive a...
Thermal runaway (TR) is a significant safety concern of Li-ion Batteries (LIBs) that can lead to haz...
High energy density lithium-ion batteries (LIBs) are well suited for electrical vehicle applications...
The high capacity and voltage properties demonstrated by lithium-ion batteries render them as the pr...
Exposure of lithium ion battery (LIB) to abnormal operating conditions may result in rapid self-heat...
Preventing cell-cell thermal runaway propagation and flames/sparks from exiting battery enclosure is...