Accurate insight into the heat generation rate (HGR) of lithium-ion batteries (LIBs) is one of
key issues for battery management systems to formulate thermal safety warning strategies in …

Recent high-energy lithium-ion batteries contain highly densified electrodes, but they are
expected to endure fast charging without safety compromises or accelerated aging. To …

Understanding the rate of heat generation in a lithium-ion cell is critical for its safety and
performance behavior. This paper presents in situ measurements of the heat generation rate …

Lithium ion batteries have a vital role in the commercialization of electric vehicles and plug-
in hybrid vehicles due to their relatively high specific energy and power densities. However …

Abstract Evaluation of Li-ion cell performance and life requires the ability to predict behavior
at extreme conditions, such as low temperatures and high C-rates. Most electrochemical …

Irreversible heat generation plays a dominant role in li-ion batteries, it is thus highly
important to study its evolution in order to adapt the development of electronic devices …

With the increase in the capacity and power rating of batteries in today's HEVs and EVs, the
battery thermal management (BTM) system bears growing importance in vehicle safety and …

Understanding internal state non-uniformity that occurs across the electrodes in large-format
Lithium-ion batteries, and among parallel-connected cells, is a critical part of the cell and …

In this study, the heat generation and dissipation terms are classified for both irreversible
and reversible heat. The irreversible heat is formulated according to the Joule-heating …

In this paper, a reduced-order, Multi-Scale, Multi-Dimensional (MSMD) model is developed
to achieve accurate and fast simulation of the 2D distribution of thermal and electrochemical …