MARIA LUISA MELE

Dottoressa di ricerca

ciclo: XXXIV


supervisore: Prof. Paola Russo

Titolo della tesi: Study of safety issues of Lithium-ion batteries for their application in the automotive sector

Lithium-ion batteries offer a series of advantages compared to other type of batteries of different chemistry. In particular they are characterized by high energy and power density and they have a longer shelf life and high efficiency. Despite its overall advantages, the greatest limitation to lithium-ion technology development is due to safety problems. Nowadays lithium-ion batteries are widely used, in fact they are the most suitable choice to use in many applications, such as portable electronics, power tools, and hybrid/full electric vehicles. Despite the low failure rate, in recent years, several episodes have been reported in which lithium ion batteries have been the source of fires and dangerous accidents. This is due to their high energy density which imply greater dangers in the event of malfunctions or failures, given the presence of toxic and highly flammable substances. In normal use conditions lithium-ions move from the anode to the cathode passing through the electrolyte. If accidentally a failure occurs, the power generated can become greater than the heat that the cell is able to dissipate. Consequently, the temperature rapidly increases, thus the polymer separator melts due to the temperature increasing leading to an internal short circuit. The electrolyte reacts with the electrodes producing more and more heat, flammable gases and oxidants. Therefore, no external oxygen is required for the ignition of the fire. The failure mechanism that could lead to a fire or an explosion (or both) is called thermal runaway. For these reasons, failures of Li-ion batteries that resulted in a fire aroused great attention both for the intensity of the fire and for the combustion products. Moreover, some documented cases are reported of ignition of battery pack subject to fire after its extinction, so the difficulty found in extinguishing these fires is another crucial point. The aim of this thesis is to study the thermal runaway of Li-ion cells of battery systems for hybrid/full electric vehicles. To this purpose, fire tests were performed on single NCA cells from Panasonic (NCR 18650). In particular, measurements of the heat release rate (HRR) were made using an ISO 5660 cone calorimeter, varying the state of charge (SoC) and the external radiant heat flux, with the intent to reproduce the conditions that are established when the cells are involved in a fire. Cell components were investigated using a DSC before and after cone calorimetric tests. Moreover, SEM-EDS and XRD were used to determine the structural, morphological, and compositional changes of Panasonic 18650 Li-ion cell components allowing the identification and the characterization of the main reactions that occur in the cell under thermal abuse conditions and which can lead to thermal runaway. The kinetics of these reactions were assessed using the Kissinger and Ozawa methods. Then the thermal and kinetics parameters of the reactions occurring during the thermal runaway together with the phenomena involving the electrolyte (i.e., venting) were included in the Battery and Fuel Cell Module of COMSOL Multiphysics simulator, allowing the development of a predictive model. The kinetic studies and the COMSOL simulation were made also on Lithium-ion cells with different chemistry (LTO).

Produzione scientifica

11573/1722789 - 2024 - Incident Analysis and Identification of Key Risks During Lib s Battery Life: the Role of Accidents Databases in the Risk Prevention Actions
Mele, Maria Luisa; Ubaldi, Sofia; Di Bari, Cinzia; Russo, Paola - 01a Articolo in rivista
rivista: CHEMICAL ENGINEERING TRANSACTIONS (Milano : Sauro Pierucci Milano : AIDIC) pp. 295-300 - issn: 2283-9216 - wos: (0) - scopus: (0)

11573/1670805 - 2023 - Differential scanning calorimetry (DSC) as a tool for studying thermal properties of a crude cellulase cocktail
Di Matteo, Paola; Luziatelli, Francesca; Bortolami, Martina; Mele, Maria Luisa; Ruzzi, Maurizio; Russo, Paola - 01a Articolo in rivista
rivista: CHEMICAL PAPERS (Bratislava : Institute of Chemistry, Slovak Academy of Sciences; Warszawa : Versita; Heidelberg : Springer, 2006-) pp. - - issn: 1336-9075 - wos: WOS:000911233100003 (2) - scopus: 2-s2.0-85145888435 (3)

11573/1640406 - 2023 - Modeling of the thermal runaway phenomenon of cylindrical 18650 Li-Ion cells
Russo, Paola; Ubaldi, Sofia; Mele, Maria Luisa - 02a Capitolo o Articolo
libro: Lecture notes in electrical engineering - (978-3-031-24836-8; 978-3-031-24837-5)

11573/1638196 - 2022 - Thermal abuse tests on 18650 Li-Ion cells using a cone calorimeter and cell residues analysis
Mele, M. L.; Bracciale, M. P.; Ubaldi, S.; Santarelli, M. L.; Mazzaro, M.; Di Bari, C.; Russo, P. - 01a Articolo in rivista
rivista: ENERGIES (Basel : Molecular Diversity Preservation International) pp. - - issn: 1996-1073 - wos: WOS:000783108400001 (3) - scopus: 2-s2.0-85128445542 (5)

11573/1545352 - 2021 - A study of the main reactions occurring at the electrodes of Li-ion cells during the thermal runaway
Russo, P.; Mele, M. L. - 04d Abstract in atti di convegno
congresso: XLII National Conference on Calorimetry, Thermal Analysis and Applied Thermodynamics (Udine, Italy)
libro: Book of abstract XLII National Conference on Calorimetry, Thermal Analysis and Applied Thermodynamics, Udine, January 27-28 2021 pp 116-116 - (9788836230396)

11573/1407039 - 2020 - Investigation on the fire hazards of Li-Ion cells
Russo, P.; Mele, M. L.; Longobardo, G.; Mazzaro, M.; Di Bari, C. - 02a Capitolo o Articolo
libro: Electrimacs 2019. Selected papers. Volume 1 - (978-3-030-37160-9; 978-3-030-37161-6)

11573/1545349 - 2020 - Li-ion batteries. Characterization of the thermal runaway reactions using a DSC
Russo, Paola; Mele, Maria Luisa - 04b Atto di convegno in volume
congresso: 13th International symposium on hazards, prevention and mitigation of industrial explosions (ISHPMIE 2020) (Braunschweig; Germany)
libro: Proceedings of the 13th international symposium on hazards, prevention and mitigation of industrial explosions (ISHPMIE 2020) - ()

11573/1407051 - 2020 - Heat capacity and thermodynamic functions of di-,tri- and tetramethylammonium lead iodide perovskites from 289 to 473 K
Vecchio Ciprioti, S.; Ciccioli, A.; Mele, M. L.; Russo, P.; Pulci, G.; Latini, A. - 01a Articolo in rivista
rivista: THERMOCHIMICA ACTA (Elsevier BV:PO Box 211, 1000 AE Amsterdam Netherlands:011 31 20 4853757, 011 31 20 4853642, 011 31 20 4853641, EMAIL: nlinfo-f@elsevier.nl, INTERNET: http://www.elsevier.nl, Fax: 011 31 20 4853598) pp. - - issn: 0040-6031 - wos: WOS:000528017300011 (4) - scopus: 2-s2.0-85081893431 (4)

11573/1352703 - 2019 - Stabilizing lead halide perovskites with quaternary ammonium cations. The case of tetramethylammonium lead iodide
Ciccioli, A.; Panetta, R.; Luongo, A.; Brunetti, B.; Vecchio Ciprioti, S.; Mele, M. L.; Latini, A. - 01a Articolo in rivista
rivista: PHYSICAL CHEMISTRY CHEMICAL PHYSICS (Thomas Graham House, Science Park, Cambridge: Royal Society of Chemistry) pp. 24768-24777 - issn: 1463-9076 - wos: WOS:000498220500052 (21) - scopus: 2-s2.0-85075104744 (22)

11573/1413506 - 2019 - Characterization of cellulases produced by trichoderma longibrachiatum DIBAF-10 using differential scanning calorimetry
Di Matteo, Paola; Luziatelli, Francesca; Mele, Maria Luisa; Ruzzi, Maurizio; Russo, Paola - 04f Poster
congresso: CEEC-TAC5 medicta 2019 (Roma)
libro: Book of abstracts CEEC-TAC5 medicta 2019 - (9783940237590)

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