Abstract
This paper aims to verify that a large number of individual renew- able energy sources (RES) performing power smoothing functionality can lead to the power smoothing effect from the entire RES. For imple- mentation of power smoothing methodology, a grid connected energy storage systems (ESS) with state of charge (SOC) control are applied for photovoltaic system. Power smoothing method effectively attenuate the variability of RES along with SOC management of ESS. In order to demonstrate the effectiveness of power smoothing grid with renewable energy sources, mathematical verification is included to provide logical proof of the methodology. The case studies are carried out using PSCAD simulation with modified IEEE 34 node radial network with PV and ESS.
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References
International energy agency executive summary (2020) Korea 2020 Energy Policy Review. pp. 11
Renewables Unit, U (2019) Status of power system transformation 2019: power system flexibility
(2017) National grid, system operability framework, S. Voltage and frequency dependency. Renew Sustain Energy Rev 2-3
Semich I, Nese SV, Bulent O (2020) Challenges of renewable energy penetration on power system flexibility: a survey. Electr Power Syst Res 31:1–3
Yadav M, Pal N, Saini DK (2023) Low voltage ride through capability for resilient electrical distribution system integrated with renewable energy resources. Electr Power Syst Res 9:2352–4847
Peilin L, Guofang Z, Lei D, Xuesong G, Chunjiang J, Chong N, Terzija V (2022) High-voltage ride-through strategy for wind turbine with fully-rated converter based on current operating range. Int J Electr Power Energy Syst 141:142–615
Hatziargyriou N, Milanovic J, Rahmann C, Ajjarapu V, Canizares C, Erlich I, Hill D, Hiskens I, Kamwa I, Pal B, Pourbeik P, Sanchez-Gasca J, Stankovic A, Van Cutsem T, Vittal V, Vournas C (2021) Definition and classification of power system stability–revisited & extended. IEEE Trans Power Syst 36:3271–3281
Kanehira T, Takahashi A, Imai J, Funabiki S (2015) A comparison of electric power smoothing control methods for distributed generation systems. Electr Eng Japan 193:49–57
Marcos J, Parra I, Garcia M, Marroyo L (2014) Control strategies to smooth short-term power fluctuations in large photovoltaic plants using battery storage systems. Energies 7:6593–6619
Yang Y, Haozhong C, Heng Z, Zheng W, Wei Z (2022) Transmission expansion planning with optimal transmission switching considering uncertain n-k contingency and renewables. Energy Rep 8:2352–4847
Chaibi Y, Allouhi A, Malvoni M, Salhi M, Saadani R (2019) Solar irradiance and temperature influence on the photovoltaic cell equivalent-circuit models. Sol Energy 188:1102–1110
Shim JW, Kim H, Hur K (2019) Incorporating state-of-charge balancing into the control of energy storage systems for smoothing renewable intermittency. Energies 12:7
Johnson SC, Papageorgiou DJ, Harper M, Rhodes JD, Hanson K, Webber ME (2021) The economic and reliability impacts of grid-scale storage in a high penetration renewable energy system. Adv Appl Energy 3:2666–7924
Shin SS, Oh JS, Jang SH, Cha JH, Kim JE (2017) Active and reactive power control of ess in distribution system for improvement of power smoothing control. Korean Inst Electr Eng 12:1007–1015
Zhang L, Wang S, Stroe D-I, Zou C, Fernandez C, Yu C (2020) An accurate time constant parameter determination method for the varying condition equivalent circuit model of lithium batteries. Energies 13:8
Acknowledgements
This research was funded by a 2021 research Grant from Sangmyung University (2021-A000-0086).
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Lee, Y.S., Yoon, H.J. & Shim, J.W. Collective Power Smoothing Functionality of Renewable Energy Sources with Energy Storage System. J. Electr. Eng. Technol. 19, 1141–1151 (2024). https://doi.org/10.1007/s42835-023-01727-1
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DOI: https://doi.org/10.1007/s42835-023-01727-1