Title Investigation of the impact of household energy storage on DSO grid load symmetry and photovoltaic energy utilization efficiency
Authors Šriupša, Laurynas ; Vaitkūnas, Mindaugas ; Baronas, Artūras ; Svinkūnas, Gytis ; Dosinas, Julius ; Gudžius, Saulius ; Vilutis, Gytis
DOI 10.3390/sym18050879
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Is Part of Symmetry.. Basel : MDPI. 2026, vol. 18, iss. 5, art. no. 879, p. 1-35.. ISSN 2073-8994
Keywords [eng] power flow symmetry ; PV power plant ; electric energy storage ; four-wire inverter ; integrated household power system ; self-consumption rate ; self-sufficiency rate
Abstract [eng] In this study, we investigate the impact of electric energy storage (EES) on phase line power flow symmetry and photovoltaic (PV) energy utilization in prosumer three-phase four-wire integrated household systems. The analysis is based on high-time-resolution (1 s) experimental data collected from a real household grid and subsequent simulations of energy flows using MATLAB/Simulink software. Two converter operation strategies were evaluated: the conventional symmetric mode and the asymmetric mode developed by the authors based on an adaptive power flow management algorithm. For both strategies, the impact of EES capacity on imbalance in the distribution system operator (DSO) grid was investigated. The methodology analyzes energy flows in each phase line separately, allowing for a detailed assessment of the imbalance between phase line phenomena and their impact on local energy consumption. Key performance parameters used for the efficiency evaluation include the self-consumption and self-sufficiency rates, which quantify the share of locally generated energy consumed within the household and the degree of independence from the DSO grid. The results show that combining adaptive asymmetric inverter control with appropriately sized energy storage allows for more efficient on-site utilization of PV energy, which, at the same time, improves the load symmetry of the phase lines in the DSO grid.
Published Basel : MDPI
Type Journal article
Language English
Publication date 2026
CC license CC license description