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Non-Invasive Accurate Time Resolved Inverse Battery Calorimetry

Journal Article · · Energy Storage Materials
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Precise knowledge of the battery heat generation rate and the internal temperature rise allows accurate thermal regulation required for enabling fast charging while minimizing side reactions and avoiding thermal runaway. With the necessity of high energy density, the size of batteries is constantly increasing. Because of poor thermal conduction, the thermal lag in large batteries is significant resulting in a considerable temperature gradient within the cell. Existing calorimetry methods only account for the external heat flow measurement and the external temperature rise and therefore cannot account for the thermal lag inside the cell. Additionally, with these methods, the temporal (time-resolved) information of the heat generation rate is compromised, which makes observation and attribution of electrochemical- thermal signatures impossible. As a potential solution, various intrusive techniques such as embedded thermal sensors have been proposed in the literature. However, these techniques are limited in scope. To enable accurate measurement of time-resolved heat flux measurement in commercial batteries, we instead propose a new battery calorimetry approach by combining state-of-the-art commercial calorimetry with an inverse heat transfer algorithm. This inverse calorimetry is completely non-intrusive with no change to commercial calorimeters. The inverse calorimetry reduces the error in heat generation rate to within 10% of the actual heat generation rate compared to 50% from the lumped capacitance method (best existing method). This method enables time resolved observation of electrochemical-thermal signatures such as a negative heat generation rate due to entropy change, which could not be observed from existing calorimetry methods.

Research Organization:
National Renewable Energy Laboratory (NREL), Golden, CO (United States)
Sponsoring Organization:
USDOE Office of Energy Efficiency and Renewable Energy (EERE), Transportation Office. Vehicle Technologies Office
DOE Contract Number:
AC36-08GO28308
OSTI ID:
1992833
Report Number(s):
NREL/JA-5700-87005; MainId:87780; UUID:25f2d1b0-00ae-4498-b9ce-8d6650c9b208; MainAdminID:70040
Journal Information:
Energy Storage Materials, Vol. 60
Country of Publication:
United States
Language:
English

References (28)

Enabling fast charging – Battery thermal considerations journal November 2017
Enabling fast charging – A battery technology gap assessment journal November 2017
A review of thermal physics and management inside lithium-ion batteries for high energy density and fast charging journal October 2021
Temperature-dependent electrochemical heat generation in a commercial lithium-ion battery journal February 2014
Thermal runaway mechanism of lithium ion battery for electric vehicles: A review journal January 2018
Measurements and modeling to determine the critical temperature for preventing thermal runaway in Li-ion cells journal December 2018
Asymmetric Temperature Modulation for Extreme Fast Charging of Lithium-Ion Batteries journal December 2019
Measurement of anisotropic thermophysical properties of cylindrical Li-ion cells journal April 2014
Online Internal Temperature Estimation for Lithium-Ion Batteries Based on Kalman Filter journal May 2015
Determination of the core temperature of a Li-ion cell during thermal runaway journal December 2017
In-operando temperature measurement across the interfaces of a lithium-ion battery cell journal December 2013
Local Heat Generation in a Single Stack Lithium Ion Battery Cell journal December 2015
Identification and characterization of the dominant thermal resistance in lithium-ion batteries using operando 3-omega sensors journal March 2020
Thermal properties of Li4/3Ti5/3O4/LiMn2O4 cell journal December 2007
Operando decoding of chemical and thermal events in commercial Na(Li)-ion cells via optical sensors journal August 2020
Heat generation rate measurement in a Li-ion cell at large C-rates through temperature and heat flux measurements journal July 2015
In Situ Detection of Lithium Plating on Graphite Electrodes by Electrochemical Calorimetry journal January 2013
Experimental and numerical investigation of core cooling of Li-ion cells using heat pipes journal October 2016
Heat Generation and Thermal Transport in Lithium-Ion Batteries: A Scale-Bridging Perspective journal November 2018
Experimental study on the influence of temperature and state-of-charge on the thermophysical properties of an LFP pouch cell journal October 2015
Measurement of heat generation rate and heat sources of pouch type Li-ion cells journal May 2021
Thermal runaway features of large format prismatic lithium ion battery using extended volume accelerating rate calorimetry journal June 2014
Measurement of heat generation in a 40 Ah LiFePO4 prismatic battery using accelerating rate calorimetry journal April 2018
Predicting heat generation in a lithium-ion pouch cell through thermography and the lumped capacitance model journal February 2016
Experimental study on heat generation characteristics of lithium-ion batteries using a forced convection calorimetry method journal January 2023
Application of electrochemical impedance spectroscopy to commercial Li-ion cells: A review journal December 2020
Towards Understanding Heat Generation Characteristics of Li-Ion Batteries by Calorimetry, Impedance, and Potentiometry Studies journal January 2017
Temperature dependent ageing mechanisms in Lithium-ion batteries – A Post-Mortem study journal September 2014

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ENERGY STORAGE
batteries
calorimeters
calorimetry
heat flux
heat generation
heat transfer