Optimal Model for Complementary Operation of a Photovoltaic-Wind-Pumped Storage System

Abstract EN

An optimization model for the complementary operation of a photovoltaic-wind-pumped storage system is built to make full use of solar and wind energy.

Apart from ensuring the maximum economic benefit which is normally used as the only objective, the stable objectives of minimizing the output fluctuation and variation of load and output difference are added to form the multiobjective problems because of lack of study on access capacity of photovoltaic and wind power.

The model aims to increase the power benefit and reduce the output fluctuation and variation of load and output difference under the constraints of station, output balance, and transmission limitation.

In a case study, four schemes including single-objective independent operation, single-objective complementary operation, and multiobjective complementary operation are compared to discuss the effect of pumped storage station on economic objective and stable objectives.

Furthermore, the opposite trend of the two objectives is proved and a compromise optimal solution is given.

The results indicate that the pumped storage station can effectively increase power benefit and access capacity of photovoltaic and wind power.

The study can provide references to the complementary optimization of the pumped storage station and the intermittent renewable energy.