Journal
ENERGIES
Volume 14, Issue 12, Pages -Publisher
MDPI
DOI: 10.3390/en14123624
Keywords
community of prosumers; new consumption peak; shared PV plant; storage batteries; load factor
Categories
Funding
- Aalto University
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In prosumers' communities, using storage batteries to support photovoltaic sources and coordinating household appliances usage can bring various benefits, but large-scale appliance use may affect power system performance and lead to asset fatigue. The proposed MILP model optimizes the operation of storage batteries and household appliances to increase the maximum load factor and considers constraints related to household appliances.
In prosumers' communities, the use of storage batteries (SBs) as support for photovoltaic (PV) sources combined with coordination in household appliances usage guarantees several gains. Although these technologies increase the reliability of the electricity supply, the large-scale use of home appliances in periods of lower solar radiation and low electricity tariff can impair the performance of the electrical system. The appearance of new consumption peaks can lead to disturbances. Moreover, the repetition of these events in the short term can cause rapid fatigue of the assets. To address these concerns, this research proposes a mixed-integer linear programming (MILP) model aiming at the optimal operation of the SBs and the appliance usage of each prosumer, as well as a PV plant within a community to achieve the maximum load factor (LF) increase. Constraints related to the household appliances, including the electric vehicle (EV), shared PV plant, and the SBs, are considered. Uncertainties in consumption habits are simulated using a Monte Carlo algorithm. The proposed model was solved using the CPLEX solver. The effectiveness of our proposed model is evaluated with/without the LF improvement. Results corroborate the efficient performance of the proposed tool. Financial benefits are obtained for both prosumers and the energy company.
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