Titel: Research data for the publication "Thermal electrical tests for battery safety standardization"
Autoren: Stein, Annika, Physikalisch-Technische Bundesanstalt (PTB), Fachbereich 3.6 Explosionsgeschützte Sensorik und Messtechnik, ORCID: 0000-0003-3708-6234
Kehl, Daniel, Elenia Institute for High Voltage Technology and Power Systems, Technische Universität Braunschweig, Braunschweig, Germany, ORCID: 0000-0003-0615-3115
Jackmann, Cedric, Elenia Institute for High Voltage Technology and Power Systems, Technische Universität Braunschweig, Braunschweig, Germany
Essmann, Stefan, Physikalisch-Technische Bundesanstalt (PTB), Fachbereich 3.5 Explosionsschutz in der Energietechnik, ORCID: 0000-0001-8238-1756
Lienesch, Frank, Physikalisch-Technische Bundesanstalt (PTB), Abteilung 9 Gesetzliche und internationale Metrologie, ORCID: 0000-0003-2283-7322

Alle Autoren anzeigen (6)
Beitragende: HostingInstitution: Physikalisch-Technische Bundesanstalt (PTB), ISNI: 0000 0001 2186 1887
Sprache:en
DOI:10.7795/720.20221021
Art der Ressource: Dataset / Measurement Data
Herausgeber: Physikalisch-Technische Bundesanstalt (PTB)
Rechte: https://creativecommons.org/licenses/by/4.0/
CC-BY 4.0 International
Beziehungen: IsReferencedBy: DOI 10.3390/en15217930
Daten: Verfügbar: 2023-04-04
Klassifikationen: INSPEC A8245 Electrochemistry and electrophoresis ; INSPEC B8410E Secondary cells ; INSPEC A8630F Secondary cells ; INSPEC E0240C Security aspects ; INSPEC A8240P Flames, combustion, and explosions ; INSPEC A5280Q Explosions (electrical discharges)
Datei: Datei herunterladen (application/zip) 756.58 kB (774734 Bytes)
MD5 Prüfsumme: 3d7f5e69efb96c53f4f90a26b6c87f26
SHA256 Prüfsumme: 6bb13065adbc7090b76715236bf7d3acd3733c113e0e68b8f77771983cdcec83
Schlagworte lithium batteries ; battery safety ; overcharging ; short-circuit currents ; standardisation ; electrochemical impedance spectroscopy
Zusammenfassung: Battery safety tests are defined by several international standards in different ways and with heterogenous termination and failure criteria. In this work, lithium-ion cells were examined regarding their behavior in the event of overcharging and also in the event of an external short circuit with varied parameters specified by standards. The voltage, current, and temperature curves were evaluated. In addition, the changes in the cells were analyzed using electrochemical impedance spectroscopy (EIS). It is shown that the cells exhibit reproducible behavior in a clamped state. Further, it could be determined that the position of the cell opening during an overcharge has an influence on the further behavior of the cell. EIS data showed that the cells have a significantly higher internal resistance after an overcharge. The short-circuit tests at different ambient temperatures indicated that the internal resistance of the cell decreases with increasing temperature. However, no reproducible effects in impedance spectra were present after the short-circuit test. This work illustrates that the choice of test parameters and termination criteria undoubtedly influence the test results and thus may change the classification of cells as either safe or unsafe. Thus, cells may be classified as safe regarding a certain standard but unsafe regarding another.
Inhaltsverzeichnis: The files "overchg_[Iov]_[Tamb]_[mount]_[nr].csv" contain the results of the overcharge tests performed on four clamped battery cells ("269", "271", "272", "274") plus an unclamped one ("270").

Parameters:
Iov = normalised overcharge current = "1C" (= full discharge in one hour)
Tamb = ambient temperature = (20±2) °C
mount = mounting = "clamped" or "not clamped"
nr = cell number = "269", "270", "271", "272", "274"

Variables:
time = time from the measurement beginning, in seconds
Tcell1,2,3 = cell temperature, in degrees Celsius (three independent measurements)
Tamb = ambient temperature, in degrees Celsius (measured for control)
Ucell = cell voltage, in volt
Iov = overcharge current, in ampere
Qcell = cell charge, in ampere-hours
SoC = cell state of charge relative to the maximum nominal charge, in %

The files "EIS_[timept]_[nr].csv" contain the results of the electrochemical impedance measurements performed on one of the test cells ("272") before and after the overcharge test.

Parameters:
timept = time point of the EIS measurement = before or after the overcharge test
nr = cell number = "272"

Variables:
Freq = frequency of the probe voltage, in hertz
Ucell = cell voltage, in volt
ReZ = cell electrochemical impedance, resistive component, in milliohm
ImZ = cell electrochemical impedance, inductive component, in milliohm

The files "shortcircuit_[Tamb]_[mount]_[nr].csv" contain the results of the short circuit tests performed on three test cells at (20±2) °C ambient temperature ("256", "263", "266") and on another cell at (55±2) °C ambient temperature ("260").

Parameters:
Tamb = ambient temperature = (20±2) °C or or (55±2) °C
mount = mounting = "clamped"
nr = cell number = "256", "260", "263", "266"

Variables:
t = time from the measurement beginning, in seconds / in minutes
Dt = time during the short circuit, in minutes
Tcell1,2,3 = cell temperature, in degrees Celsius (two or three independent measurements)
Tamb = ambient temperature, in degrees Celsius (measured for control)
Ucell = cell voltage, in volt
Ushunt = shunt voltage, in volt
Isc=Ishunt = short circuit current = shunt current, in ampere
Bemerkung: recommended software for reading: microsoft excel
Förderung: Bundesministerium für Bildung und Forschung (BMBF), ISNI: 0000 0001 2342 0436, Grant Title: Batteriesicherheitsstandardisierung, Grant Number: 16EMO0318 BaSS