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Influence of charge conditions on battery dynamics of a commercial lithium-ion cell

Yıl 2020, Cilt: 48 Sayı: 3, 203 - 210, 15.06.2020

Uğur Moralı

https://doi.org/10.15671/hjbc.677841
Cited By: 2

Öz

Electrochemical impedance spectroscopy measurements were performed to determine the effect of the state-of-charge, charge current, and current-drop time on battery dynamics of a commercial 2032 lithium-ion coin cell. The impedance response was systematically investigated and discussed by using the Taguchi design. The results showed that the state-of-charge had a statistically significant effect on both the resistance for solid electrolyte interphase formation and cathodic charge transfer resistance. It was showed that the Taguchi design is a valuable tool for analyzing battery dynamics obtained through the equivalent circuit model. The Taguchi design opened the door for a robust design of lithium-ion batteries in real life.

Anahtar Kelimeler

impedance spectroscopy lithium-ion batteries battery dynamics Taguchi design

Destekleyen Kurum

Eskisehir Osmangazi University Scientific Research Foundation

Proje Numarası

2017-1911

Kaynakça

  • U. Moralı, S. Erol, 18650 lityum-iyon ve 6HR61 nikel-metal hidrit tekrar şarj edilebilir pillerinin elektrokimyasal empedans analizi, J. Fac. Eng. Archit. Gaz., 35(1) (2020) 297-310.
  • H. Wang, S. Frisco, E. Gottlieb, R. Yuan, J.F. Whitacre, Capacity degradation in commercial Li-ion cells: The effects of charge protocol and temperature, J. Power Sources, 426 (2019) 67-73.
  • R. Gopalakrishnan, Y. Li, J. Smekens, A. Barhoum, G. Van Assche, N. Omar, J. Van Mierlo, Electrochemical impedance spectroscopy characterization and parameterization of lithium nickel manganese cobalt oxide pouch cells: dependency analysis of temperature and state of charge, Ionics, 25 (1) (2018) 111-123.
  • T. Amietszajew, E. McTurk, J. Fleming, R. Bhagat, Understanding the limits of rapid charging using instrumented commercial 18650 high-energy Li-ion cells, Electrochim. Acta, 263 (2018) 346-352.
  • S. Erol, M.E. Orazem, R.P. Muller, Influence of overcharge and over-discharge on the impedance response of LiCoO2|C batteries, J. Power Sources, 270 (2014) 92-100.
  • S. Buteau, D. Dahn, J. Dahn, Explicit conversion between different equivalent circuit models for electrochemical impedance analysis of lithium-ion cells, J. Electrochem. Soc., 165 (2) (2018) A228-A234.
  • C. Yu, S. Ganapathy, E. Eck, H. Wang, S. Basak, Z. Li, M. Wagemaker, Accessing the bottleneck in all-solid state batteries, lithium-ion transport over the solid-electrolyte-electrode interface, Nat. Commun., 8 (1) (2017) 1086.
  • J. Xu, X. Wang, N. Yuan, J. Ding, S. Qin, J.M. Razal, X. Wang, S. Ge, Y. Gogotsi, Extending the low temperature operational limit of Li-ion battery to− 80° C, Energy Stor. Mater., 23 (2019) 383-389.
  • A. Schmidt, A. Smith, H. Ehrenberg, Power capability and cyclic aging of commercial, high power lithium ion battery cells with respect to different cell designs, J. Power Sources, 425 (2019) 27-38.
  • U. Moralı, H. Demiral, S. Şensöz, Optimization of activated carbon production from sunflower seed extracted meal: Taguchi design of experiment approach and analysis of variance, J. Clean. Prod., 189 (2018) 602-611.
  • S. Erol, M.E. Orazem, The influence of anomalous diffusion on the impedance response of LiCoO2|C batteries, J. Power Sources, 293 (2015) 57-64.
  • A. Barai, K. Uddin, M. Dubarry, L. Somerville, A. McGordon, P. Jennings, I. Bloom, A comparison of methodologies for the non-invasive characterisation of commercial Li-ion cells, Prog. Energ. Combust., 72 (2019) 1-31.
  • D. Juarez-Robles, C.-F. Chen, Y. Barsukov, P.P. Mukherjee, Impedance evolution characteristics in lithium-ion batteries, J. Electrochem. Soc., 164 (4) (2017) A837-A847.
  • R. Tatara, P. Karayaylali, Y. Yu, Y. Zhang, L. Giordano, F. Maglia, R. Jung, J.P. Schmidt, I. Lund, Y. Shao-Horn, The effect of electrode-electrolyte interface on the electrochemical impedance spectra for positive electrode in Li-ion battery, J. Electrochem. Soc., 166 (3) (2019) A5090-A5098.
  • A. Yürüm, Sunflower Stalk Based Activated Carbon for Supercapacitors, Hacettepe Journal of Biology and Chemistry, 2019 47 (3) 235-247.

Yıl 2020, Cilt: 48 Sayı: 3, 203 - 210, 15.06.2020

Uğur Moralı

https://doi.org/10.15671/hjbc.677841
Cited By: 2

Öz

Proje Numarası

2017-1911

Kaynakça

  • U. Moralı, S. Erol, 18650 lityum-iyon ve 6HR61 nikel-metal hidrit tekrar şarj edilebilir pillerinin elektrokimyasal empedans analizi, J. Fac. Eng. Archit. Gaz., 35(1) (2020) 297-310.
  • H. Wang, S. Frisco, E. Gottlieb, R. Yuan, J.F. Whitacre, Capacity degradation in commercial Li-ion cells: The effects of charge protocol and temperature, J. Power Sources, 426 (2019) 67-73.
  • R. Gopalakrishnan, Y. Li, J. Smekens, A. Barhoum, G. Van Assche, N. Omar, J. Van Mierlo, Electrochemical impedance spectroscopy characterization and parameterization of lithium nickel manganese cobalt oxide pouch cells: dependency analysis of temperature and state of charge, Ionics, 25 (1) (2018) 111-123.
  • T. Amietszajew, E. McTurk, J. Fleming, R. Bhagat, Understanding the limits of rapid charging using instrumented commercial 18650 high-energy Li-ion cells, Electrochim. Acta, 263 (2018) 346-352.
  • S. Erol, M.E. Orazem, R.P. Muller, Influence of overcharge and over-discharge on the impedance response of LiCoO2|C batteries, J. Power Sources, 270 (2014) 92-100.
  • S. Buteau, D. Dahn, J. Dahn, Explicit conversion between different equivalent circuit models for electrochemical impedance analysis of lithium-ion cells, J. Electrochem. Soc., 165 (2) (2018) A228-A234.
  • C. Yu, S. Ganapathy, E. Eck, H. Wang, S. Basak, Z. Li, M. Wagemaker, Accessing the bottleneck in all-solid state batteries, lithium-ion transport over the solid-electrolyte-electrode interface, Nat. Commun., 8 (1) (2017) 1086.
  • J. Xu, X. Wang, N. Yuan, J. Ding, S. Qin, J.M. Razal, X. Wang, S. Ge, Y. Gogotsi, Extending the low temperature operational limit of Li-ion battery to− 80° C, Energy Stor. Mater., 23 (2019) 383-389.
  • A. Schmidt, A. Smith, H. Ehrenberg, Power capability and cyclic aging of commercial, high power lithium ion battery cells with respect to different cell designs, J. Power Sources, 425 (2019) 27-38.
  • U. Moralı, H. Demiral, S. Şensöz, Optimization of activated carbon production from sunflower seed extracted meal: Taguchi design of experiment approach and analysis of variance, J. Clean. Prod., 189 (2018) 602-611.
  • S. Erol, M.E. Orazem, The influence of anomalous diffusion on the impedance response of LiCoO2|C batteries, J. Power Sources, 293 (2015) 57-64.
  • A. Barai, K. Uddin, M. Dubarry, L. Somerville, A. McGordon, P. Jennings, I. Bloom, A comparison of methodologies for the non-invasive characterisation of commercial Li-ion cells, Prog. Energ. Combust., 72 (2019) 1-31.
  • D. Juarez-Robles, C.-F. Chen, Y. Barsukov, P.P. Mukherjee, Impedance evolution characteristics in lithium-ion batteries, J. Electrochem. Soc., 164 (4) (2017) A837-A847.
  • R. Tatara, P. Karayaylali, Y. Yu, Y. Zhang, L. Giordano, F. Maglia, R. Jung, J.P. Schmidt, I. Lund, Y. Shao-Horn, The effect of electrode-electrolyte interface on the electrochemical impedance spectra for positive electrode in Li-ion battery, J. Electrochem. Soc., 166 (3) (2019) A5090-A5098.
  • A. Yürüm, Sunflower Stalk Based Activated Carbon for Supercapacitors, Hacettepe Journal of Biology and Chemistry, 2019 47 (3) 235-247.
Toplam 15 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Articles
Yazarlar

Uğur Moralı 0000-0001-7794-6943

Proje Numarası 2017-1911
Yayımlanma Tarihi 15 Haziran 2020
Kabul Tarihi 11 Haziran 2020
Yayımlandığı Sayı Yıl 2020 Cilt: 48 Sayı: 3

Kaynak Göster

APA Moralı, U. (2020). Influence of charge conditions on battery dynamics of a commercial lithium-ion cell. Hacettepe Journal of Biology and Chemistry, 48(3), 203-210. https://doi.org/10.15671/hjbc.677841
AMA Moralı U. Influence of charge conditions on battery dynamics of a commercial lithium-ion cell. HJBC. Haziran 2020;48(3):203-210. doi:10.15671/hjbc.677841
Chicago Moralı, Uğur. “Influence of Charge Conditions on Battery Dynamics of a Commercial Lithium-Ion Cell”. Hacettepe Journal of Biology and Chemistry 48, sy. 3 (Haziran 2020): 203-10. https://doi.org/10.15671/hjbc.677841.
EndNote Moralı U (01 Haziran 2020) Influence of charge conditions on battery dynamics of a commercial lithium-ion cell. Hacettepe Journal of Biology and Chemistry 48 3 203–210.
IEEE U. Moralı, “Influence of charge conditions on battery dynamics of a commercial lithium-ion cell”, HJBC, c. 48, sy. 3, ss. 203–210, 2020, doi: 10.15671/hjbc.677841.
ISNAD Moralı, Uğur. “Influence of Charge Conditions on Battery Dynamics of a Commercial Lithium-Ion Cell”. Hacettepe Journal of Biology and Chemistry 48/3 (Haziran 2020), 203-210. https://doi.org/10.15671/hjbc.677841.
JAMA Moralı U. Influence of charge conditions on battery dynamics of a commercial lithium-ion cell. HJBC. 2020;48:203–210.
MLA Moralı, Uğur. “Influence of Charge Conditions on Battery Dynamics of a Commercial Lithium-Ion Cell”. Hacettepe Journal of Biology and Chemistry, c. 48, sy. 3, 2020, ss. 203-10, doi:10.15671/hjbc.677841.
Vancouver Moralı U. Influence of charge conditions on battery dynamics of a commercial lithium-ion cell. HJBC. 2020;48(3):203-10.

Cited By

Investigation of Open Circuit Potential of Lithium-Ion Battery by The Taguchi Design
International Journal of Automotive Science and Technology
https://doi.org/10.30939/ijastech..868549
Process Model Development of Lithium-ion Batteries — An Electrochemical Impedance Spectroscopy Simulation
Sakarya University Journal of Science
https://doi.org/10.16984/saufenbilder.765554
 Kapak Resmi İndir

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