Battery Allocation and SOC in Distribution Systems Considering Temperature Constraints

Authors

Keywords:

Batteries, Distribution Systems, Losses, Optimization, Power Flow, Temperature

Abstract

This paper proposes a method for allocating and controlling batteries' state of charge in unbalanced distribution systems. Restrictions related to the depth of discharges and the relation between the nominal and operating capacity of the battery in relation to the operating temperature are proposed. The proposed optimization set is a mixed integer nonlinear with temporal coupling, so the genetic algorithm method was used with the quasi-static times series technique to solve the proposed problem. A simple technique to verify the economic feasibility of battery allocation using a k-factor is also proposed. The power flow equations were solved using OpenDSS. Several operational tests were accomplished using the IEEE34 Node Test Feeders. The results show that the consideration of deep discharge and operating temperature considerably impact the battery operating cycle and battery lifetime.

Downloads

Download data is not yet available.

Author Biographies

Maria Elisa Fernandes Octaviano, Universidade Federal de Juiz de Fora

Maria Elisa Fernandes Octaviano is an Electrical Engineer from the Federal University of Juiz de Fora (2018). She has a master’s degree in Electrical Engineering from the Federal University of Juiz de Fora (2021) and is pursuing a PhD at the same University. She is currently a CAPES Scholar in the Post-Graduation Program in Electrical Engineering.

Eduardo Mendes Loureiro

Eduardo Mendes Loureiro is an Electrical Engineer from the Federal University of Juiz de Fora (2023). He is currently taking a master’s degree at the same University focusing on electrical systems.

Leandro Ramos de Araujo

Leandro Ramos de Araujo is an Electrical Engineer from the Federal University of Juiz de Fora (1993).  He has a master’s degree in electrical engineering from the Federal University of Juiz de Fora (2000) and a PhD in the area from Federal University of Rio de Janeiro – COPPE (2005). Since 2009, he has been a professor at the Department of Electric Energy at Federal University of Juiz de Fora.

Débora Rosana Ribeiro Penido de Araujo

Debora Rosana Ribeiro Penido Araujo is an Electrical Engineer from the Federal University of Juiz de Fora (2002). She has a master’s degree in electrical engineering from the Federal University of Juiz de Fora (2004) and a PhD in the area from Federal University of Rio de Janeiro – COPPE (2010).  Since 2009, she has been a professor at the Department of Electric Energy at Federal University of Juiz de Fora.

References

M. Al-Saffar and P. Musilek, "Reinforcement Learning-Based Distributed BESS Management for Mitigating Overvoltage Issues in Systems With High PV Penetration," in IEEE Transactions on Smart Grid, vol. 11, no. 4, pp. 2980-2994, July 2020.

J. J. Kelly and P. G. Leahy, "Sizing Battery Energy Storage Systems: Using Multi-Objective Optimization to Overcome the Investment Scale Problem of Annual Worth," in IEEE Transactions on Sustainable Energy, vol. 11, no. 4, pp. 2305-2314, Oct. 2020.

A. A. R. Mohamed, R. J. Best, X. Liu and D. J. Morrow, "A Comprehensive Robust Techno-Economic Analysis and Sizing Tool for the Small-Scale PV and BESS," in IEEE Transactions on Energy Conversion, vol. 37, no. 1, pp. 560-572, March 2022.

X. Su et al., "Sequential and Comprehensive BESSs Placement in Unbalanced Active Distribution Networks Considering the Impacts of BESS Dual Attributes on Sensitivity," in IEEE Transactions on Power Systems, vol. 36, no. 4, 2021.

Y. Zheng, Y. Song, A. Huang and D. J. Hill, "Hierarchical Optimal Allocation of Battery Energy Storage Systems for Multiple Services in Distribution Systems," in IEEE Transactions on Sustainable Energy, vol. 11, no. 3, pp. 1911-1921, July 2020.

B. Wang, C. Zhang, Z. Y. Dong and X. Li, "Improving Hosting Capacity of Unbalanced Distribution Networks via Robust Allocation of Battery Energy Storage Systems," IEEE Transactions on Power Systems, vol. 36, no. 3, pp. 2174-2185, May 2021.

M. E. F. Octaviano, E. M. Loureiro, L. R. Araujo, D. R. R. P. Araujo,“Análise de Gerenciamento e Alocação de Baterias Considerando Custos e Profundidade de Descarga,” The XIV Latin-American Congress on Electricity Generation and Transmission - CLAGTEE 2022, 2022.

L. Vankudoth and A. Q. H. Badar, "Distribution Network Optimization through Siting and Sizing of BESS," 2019 8th International Conference on Power Systems (ICPS), Jaipur, India, 2019, pp. 1-5.

N. Shi, R. Cheng, Q. Zhang and Z. Wang, "Analyzing Impact of BESS Allocation on Hosting Capacity in Distribution Networks," 2022 North American Power Symposium (NAPS), Salt Lake City, UT, USA, 2022, pp. 1-6.

A. Jawad, Nahid-Al-Masood and S. Munim, "Optimal Sizing of BESS for Attaining Frequency Stability Under High PV Penetration," 2021 International Conference on Technology and Policy in Energy and Electric Power (ICT-PEP), Jakarta, Indonesia, 2021.

A. R. Camargo, “Alocação e operação ótima de dispositivos de armazenamento de energia em sistemas de distribuição considerando a preservação da vida útil das baterias,” M.S. thesis, Unicamp, Campinas, Brazil, 2016.

Trojan Battery Company. “Motive L16-AGM.” Datasheet. Available: trojanbattery.com/pdf/datasheets/Motive_L16-AGM_DS.pdf, 2021.

R. C. Dugan, “OpenDSS Storage Element and Storage Controller Element,” 2010.

L. R. de Araujo, D. R. R. Penido, N. A. do Amaral Filho, T. A. P. Beneteli, "Sensitivity analysis of convergence characteristics in power flow methods for distribution systems," International Journal of Electrical Power & Energy Systems, 97, pp. 211-219, 2018.

O. Tahvonen and S. Niinimäki, “On the economics of optimal timber production in boreal Scots pine stands,” in Canadian Journal of Forest Research, vol. 43, no. 8, pp. 719-720, May 2013.

X. Hu, C. Zou, C. Zhang and Y. Li, “Technological Developments in Batteries: A Survey of Principal Roles, Types, and Management Needs,”in IEEE Power and Energy Magazine, vol. 15, no. 5, pp. 20-31, August 2017.

A. Vian, C. M. V. Tahan, G. J. R. Aguilar, M. R. Gouvea and M. M. F. Gemignani, “Armazenamento de Energia Fundamentos, Tecnologia e Aplicações”, 1st ed., São Paulo, Brazil, Blucher, 2021, pp. 48.

M. M. Hasan and S. Ali Pourmousavi, "Battery Cell Temperature Estimation Model and Cost Analysis of a Grid-Connected PV-BESS Plant," 2019 IEEE Innovative Smart Grid Technologies - Asia (ISGT Asia), Chengdu, China, 2019, pp. 1804-1809.

S. Ma, M. Jiang, P. Tao, C. Song, J. Wu, J. Wang, T. Deng and W. Shang, “Temperature effect and thermal impact in lithium-ion batteries: A review,” in Progress in Natural Science: Materials International, vol. 28, no. 6, pp. 653-666, December 2018.

Previsão do tempo em Brasília. Disponível em: https://www.climatempo.com.br/. Acesso em 02/08/2023.

Operador Nacional do Sistema Elétrico - ONS. Disponível em: https://dados.ons.org.br/. Acesso em: 02/08/2023.

Published

2024-01-16

How to Cite

Fernandes Octaviano, M. E., Mendes Loureiro, E., Ramos de Araujo, L. ., & Rosana Ribeiro Penido de Araujo, D. (2024). Battery Allocation and SOC in Distribution Systems Considering Temperature Constraints. IEEE Latin America Transactions, 22(2), 136–143. Retrieved from https://latamt.ieeer9.org/index.php/transactions/article/view/8193

Issue

Section

Electric Energy