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Investigation of the Effect of Different Frequencies on Desulphation of Lead Acid Batteries by IoT Based Instrumentation System

Year 2022, Volume: 10 Issue: 1, 356 - 366, 31.01.2022
https://doi.org/10.29130/dubited.900181

Abstract

In this study, the solution of sulphation problem, which is often seen in Lead acid (LA) batteries, was focused on, and the effects of voltage pulses of different frequencies on the desulphation of LA batteries were experimentally investigated by using Internet of Things (IoT) based instrumentation circuits. To this end, four identical batteries, which were artificially sulphated under equal conditions, were charged by applying voltage pulses at different frequencies and DC voltage, and the changes in battery parameters were analysed. As a result of the analysis, it was seen that the decrease in the capacity of the batteries to transfer current to the load was high in the battery charged with DC voltage and relatively low in the batteries charged with voltage pulses of different frequencies. Thus, it is seen that desulphation process with high frequency voltage pulses affects a sulphated battery positively. 

References

  • [1] K. L. Man, E. G. Lim, M. Leach, J. K. Lee, ve K. K. Kim, “Simulation and analysis of desulfator for smart battery system,” in 2014 Int. SoC Design Conf. (ISOCC), 2014, ss. 173–174.
  • [2] A. M. Cao-Paz vd.., “A multi-point sensor based on optical fiber for the measurement of electrolyte density in lead-acid batteries,” Sensors, c. 10, s. 4, ss. 2587–2608, 2010.
  • [3] S. Schilling, "Ensuring lead-acid battery performance with pulse technology," in Proc. 14th Ann. Battery Conf. on Applications and Advances, USA, 1999, ss. 247-252.
  • [4] H. Karami ve R. Asadi, “Recovery of discarded sulfated lead-acid batteries,” J. Power Sources, c. 191, s. 1, ss. 165–175, 2009.
  • [5] E. M. Laadissi, A. E. Filali, ve M. Zazi, “Impact of Pulse Voltage as Desulfator to Improve Automotive Lead Acid Battery Capacity,” Int. J. Adv. Comput. Sci. Appl., c. 8, s. 7, ss. 522–526, 2017.
  • [6] I. Mizumoto, Y. Yoshii, K. Yamamoto, ve H. Oguma, “Lead-acid storage battery recovery system using on–off constant current charge and short–large discharge pulses,” Electron. Lett., c. 54, s. 12, ss. 777–779, 2018.
  • [7] R. Jolly ve C. Rhin, “The recycling of lead-acid batteries: production of lead and polypropylene,” Resour. Conserv. Recycl., c. 10, s. 1–2, ss. 137–143, 1994.
  • [8] T. Jiramoree, P. Paisuwanna, ve S. Khomfoi, “A multilevel converter charger utilizing superimposed pulse frequency method for prolonging lead-acid battery lifetime,” in 8th Electrical Engineering/Electronics, Computer, Telecommunications and Information Technol. (ECTI) Association of Thailand - Conf. 2011, Khon Kaen, Thailand, 2011, ss. 768-771
  • [9] A. Singh, P. B. Karandikar, ve N. R. Kulkarni, “Mitigation of sulfation in lead acid battery towards life time extension using ultra capacitor in hybrid electric vehicle,” J. Energy Storage, c. 34, s. 102219, 2021.
  • [10] W. Jamratnaw, “Desulfation of lead - acid battery by high frequency pulse,” in 14th Int. Conf. on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technol. (ECTI-CON), Phuket, Thailand, 2017, pp. 676-679.
  • [11] H. Karami, B. Masoomi, ve R. Asadi, “Recovery of discarded sulfated lead-acid batteries by inverse charge,” Energy Convers. Manag., c. 50, s. 4, ss. 893–898, 2009.
  • [12] Y. Gang, Z. Dao-Wei, ve Z. S. S. Yan, “Experiment study on effect of different parameters pulses on the battery plate sulfuration,” Int. J. Electrochem. Sci., c. 9, s. 11, ss. 6431–6437, 2014.
  • [13] X. D. G. Gumera, A. B. Caberos, S. C. Huang, W. R. Liou, ve J. C. Lin, “A variable duty cycle pulse train charger for ımproving lead-acid battery performance,” in 2017 Asian Conf. on Energy, Power and Transportation Electrification (ACEPT), Singapore, 2017, pp. 1-4,
  • [14] Y. Shi, C. D. Rahn, ve C. A. Ferone, “Capacıty Recovery Of A Sulfated Lead-Acıd Battery Usıng Pressure Feedback Chargıng Control,” in ASME 2012 5th Ann. Dynamic Syst. and Cont. Conf. joint with the JSME 2012 11th Motion and Vib. Conf. (DSCC2012-MOVIC2012), Florida, USA, 2012, pp. 287–291. [15] M. Köseoğlu ve Ö. F. Aydın, “Nesnelerin interneti tabanlı batarya yönetim sistemi tasarımı ve uygulaması,” in III. Uluslararası Battalgazi Bilimsel Çalışmalar Kong., Malatya, 2019, ss. 778–787.
  • [16] U. Hunkeler, H. L. Truong, ve A. Stanford-Clark, “MQTT-S – A publish / subscribe protocol for wireless sensor networks,” in 2008 3rd Int. Conf. on Commun. Syst. Software and Middleware and Workshops (COMSWARE ’08), Bangalore, India, 2008, ss. 791–798.
  • [17] P. Fremantle, B. Aziz, J. Kopecky, ve P. Scott, “Federated identity and access management for the internet of things,” in Proc. Int. Work. Secur. Internet Things (SIoT 2014), Wroclaw, Poland, 2014, ss. 10–17.
  • [18] R. A Light, “Mosquitto: server and client implementation of the MQTT protocol,” J. Open Source Softw., c. 2, s. 13, 265, 2017.
  • [19] P. Bellavista, C. Giannelli, ve R. Zamagna, “The PeRvasive environment sensing and sharing solution,” Sustainability, c. 9, s. 4, 585, 2017.

IoT Tabanlı Enstrümantasyon Sistemi ile Farklı Frekansların Kurşun Asit Akülerin Desülfasyonu Üzerine Etkilerinin İncelenmesi

Year 2022, Volume: 10 Issue: 1, 356 - 366, 31.01.2022
https://doi.org/10.29130/dubited.900181

Abstract

Bu çalışmada, Kurşun asit (KA) akülerde sıklıkla rastlanan sülfatlanma sorununun çözümüne odaklanılmış, nesnelerin interneti (IoT) tabanlı enstrümantasyon devreleri kullanılarak, farklı frekanslardaki gerilim darbelerinin KA akülerin desülfasyonu üzerindeki etkileri deneysel olarak incelenmiştir. Bu amaçla, eşit koşullarda sülfatlandırılmış dört özdeş akü, farklı frekanslarda gerilim darbeleri ve DC gerilim uygulanarak şarj edilmiş, akü parametrelerindeki değişimler analiz edilmiştir. Analiz sonucunda akülerin yüke akım aktarabilme kapasitelerindeki düşüşün, DC gerilim ile şarj edilen aküde yüksek oranda, farklı frekanstaki gerilim darbeleriyle şarj edilen akülerde ise nispeten daha düşük oranda olduğu görülmüştür. Buna göre, yüksek frekanslı gerilim darbeleriyle desülfasyon işleminin, sülfatlanmış bir aküyü olumlu şekilde etkilediği görülmüştür. 

References

  • [1] K. L. Man, E. G. Lim, M. Leach, J. K. Lee, ve K. K. Kim, “Simulation and analysis of desulfator for smart battery system,” in 2014 Int. SoC Design Conf. (ISOCC), 2014, ss. 173–174.
  • [2] A. M. Cao-Paz vd.., “A multi-point sensor based on optical fiber for the measurement of electrolyte density in lead-acid batteries,” Sensors, c. 10, s. 4, ss. 2587–2608, 2010.
  • [3] S. Schilling, "Ensuring lead-acid battery performance with pulse technology," in Proc. 14th Ann. Battery Conf. on Applications and Advances, USA, 1999, ss. 247-252.
  • [4] H. Karami ve R. Asadi, “Recovery of discarded sulfated lead-acid batteries,” J. Power Sources, c. 191, s. 1, ss. 165–175, 2009.
  • [5] E. M. Laadissi, A. E. Filali, ve M. Zazi, “Impact of Pulse Voltage as Desulfator to Improve Automotive Lead Acid Battery Capacity,” Int. J. Adv. Comput. Sci. Appl., c. 8, s. 7, ss. 522–526, 2017.
  • [6] I. Mizumoto, Y. Yoshii, K. Yamamoto, ve H. Oguma, “Lead-acid storage battery recovery system using on–off constant current charge and short–large discharge pulses,” Electron. Lett., c. 54, s. 12, ss. 777–779, 2018.
  • [7] R. Jolly ve C. Rhin, “The recycling of lead-acid batteries: production of lead and polypropylene,” Resour. Conserv. Recycl., c. 10, s. 1–2, ss. 137–143, 1994.
  • [8] T. Jiramoree, P. Paisuwanna, ve S. Khomfoi, “A multilevel converter charger utilizing superimposed pulse frequency method for prolonging lead-acid battery lifetime,” in 8th Electrical Engineering/Electronics, Computer, Telecommunications and Information Technol. (ECTI) Association of Thailand - Conf. 2011, Khon Kaen, Thailand, 2011, ss. 768-771
  • [9] A. Singh, P. B. Karandikar, ve N. R. Kulkarni, “Mitigation of sulfation in lead acid battery towards life time extension using ultra capacitor in hybrid electric vehicle,” J. Energy Storage, c. 34, s. 102219, 2021.
  • [10] W. Jamratnaw, “Desulfation of lead - acid battery by high frequency pulse,” in 14th Int. Conf. on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technol. (ECTI-CON), Phuket, Thailand, 2017, pp. 676-679.
  • [11] H. Karami, B. Masoomi, ve R. Asadi, “Recovery of discarded sulfated lead-acid batteries by inverse charge,” Energy Convers. Manag., c. 50, s. 4, ss. 893–898, 2009.
  • [12] Y. Gang, Z. Dao-Wei, ve Z. S. S. Yan, “Experiment study on effect of different parameters pulses on the battery plate sulfuration,” Int. J. Electrochem. Sci., c. 9, s. 11, ss. 6431–6437, 2014.
  • [13] X. D. G. Gumera, A. B. Caberos, S. C. Huang, W. R. Liou, ve J. C. Lin, “A variable duty cycle pulse train charger for ımproving lead-acid battery performance,” in 2017 Asian Conf. on Energy, Power and Transportation Electrification (ACEPT), Singapore, 2017, pp. 1-4,
  • [14] Y. Shi, C. D. Rahn, ve C. A. Ferone, “Capacıty Recovery Of A Sulfated Lead-Acıd Battery Usıng Pressure Feedback Chargıng Control,” in ASME 2012 5th Ann. Dynamic Syst. and Cont. Conf. joint with the JSME 2012 11th Motion and Vib. Conf. (DSCC2012-MOVIC2012), Florida, USA, 2012, pp. 287–291. [15] M. Köseoğlu ve Ö. F. Aydın, “Nesnelerin interneti tabanlı batarya yönetim sistemi tasarımı ve uygulaması,” in III. Uluslararası Battalgazi Bilimsel Çalışmalar Kong., Malatya, 2019, ss. 778–787.
  • [16] U. Hunkeler, H. L. Truong, ve A. Stanford-Clark, “MQTT-S – A publish / subscribe protocol for wireless sensor networks,” in 2008 3rd Int. Conf. on Commun. Syst. Software and Middleware and Workshops (COMSWARE ’08), Bangalore, India, 2008, ss. 791–798.
  • [17] P. Fremantle, B. Aziz, J. Kopecky, ve P. Scott, “Federated identity and access management for the internet of things,” in Proc. Int. Work. Secur. Internet Things (SIoT 2014), Wroclaw, Poland, 2014, ss. 10–17.
  • [18] R. A Light, “Mosquitto: server and client implementation of the MQTT protocol,” J. Open Source Softw., c. 2, s. 13, 265, 2017.
  • [19] P. Bellavista, C. Giannelli, ve R. Zamagna, “The PeRvasive environment sensing and sharing solution,” Sustainability, c. 9, s. 4, 585, 2017.
There are 18 citations in total.

Details

Primary Language Turkish
Subjects Engineering
Journal Section Articles
Authors

Murat Köseoğlu 0000-0003-3774-1083

Özgür Fırat Aydın This is me 0000-0003-4921-2760

Publication Date January 31, 2022
Published in Issue Year 2022 Volume: 10 Issue: 1

Cite

APA Köseoğlu, M., & Aydın, Ö. F. (2022). IoT Tabanlı Enstrümantasyon Sistemi ile Farklı Frekansların Kurşun Asit Akülerin Desülfasyonu Üzerine Etkilerinin İncelenmesi. Duzce University Journal of Science and Technology, 10(1), 356-366. https://doi.org/10.29130/dubited.900181
AMA Köseoğlu M, Aydın ÖF. IoT Tabanlı Enstrümantasyon Sistemi ile Farklı Frekansların Kurşun Asit Akülerin Desülfasyonu Üzerine Etkilerinin İncelenmesi. DUBİTED. January 2022;10(1):356-366. doi:10.29130/dubited.900181
Chicago Köseoğlu, Murat, and Özgür Fırat Aydın. “IoT Tabanlı Enstrümantasyon Sistemi Ile Farklı Frekansların Kurşun Asit Akülerin Desülfasyonu Üzerine Etkilerinin İncelenmesi”. Duzce University Journal of Science and Technology 10, no. 1 (January 2022): 356-66. https://doi.org/10.29130/dubited.900181.
EndNote Köseoğlu M, Aydın ÖF (January 1, 2022) IoT Tabanlı Enstrümantasyon Sistemi ile Farklı Frekansların Kurşun Asit Akülerin Desülfasyonu Üzerine Etkilerinin İncelenmesi. Duzce University Journal of Science and Technology 10 1 356–366.
IEEE M. Köseoğlu and Ö. F. Aydın, “IoT Tabanlı Enstrümantasyon Sistemi ile Farklı Frekansların Kurşun Asit Akülerin Desülfasyonu Üzerine Etkilerinin İncelenmesi”, DUBİTED, vol. 10, no. 1, pp. 356–366, 2022, doi: 10.29130/dubited.900181.
ISNAD Köseoğlu, Murat - Aydın, Özgür Fırat. “IoT Tabanlı Enstrümantasyon Sistemi Ile Farklı Frekansların Kurşun Asit Akülerin Desülfasyonu Üzerine Etkilerinin İncelenmesi”. Duzce University Journal of Science and Technology 10/1 (January 2022), 356-366. https://doi.org/10.29130/dubited.900181.
JAMA Köseoğlu M, Aydın ÖF. IoT Tabanlı Enstrümantasyon Sistemi ile Farklı Frekansların Kurşun Asit Akülerin Desülfasyonu Üzerine Etkilerinin İncelenmesi. DUBİTED. 2022;10:356–366.
MLA Köseoğlu, Murat and Özgür Fırat Aydın. “IoT Tabanlı Enstrümantasyon Sistemi Ile Farklı Frekansların Kurşun Asit Akülerin Desülfasyonu Üzerine Etkilerinin İncelenmesi”. Duzce University Journal of Science and Technology, vol. 10, no. 1, 2022, pp. 356-6, doi:10.29130/dubited.900181.
Vancouver Köseoğlu M, Aydın ÖF. IoT Tabanlı Enstrümantasyon Sistemi ile Farklı Frekansların Kurşun Asit Akülerin Desülfasyonu Üzerine Etkilerinin İncelenmesi. DUBİTED. 2022;10(1):356-6.