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This paper proposes a framework for fairly cur-tailing photovoltaic (PV) plants in response to the over-voltage problem in PV-rich distribution networks. The framework im-poses PV generation limits to avoid overvoltages. These limits are computed a day ahead of realtime operations by solving an offline stochastic optimization problem using forecasted scenarios for PV generation and load demand. The framework minimizes the overall curtailment while considering fairness by reducing disparities in curtailments among different PV owners. We model the distribution grid constraints using a conservative linear approximation (CLA) of the AC power flow equations which is computed using a set of sampled power injections from the day-ahead predicted scenarios. The proposed framework is nu-merically validated on a CIGRE benchmark network interfaced with a large number of PV plants. We compare the performance of the proposed framework versus an alternative formulation that does not incorporate fairness considerations. To this end, we assess tradeoffs between fairness, as quantified with the Jain Fairness Index (JFI), and the total curtailed energy.
Gupta et al. (Mon,) studied this question.
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