Authors in [4] have proposed active power curtailment and reactive power absorption for voltage rise reduction. Active power curtailment may not be an attractive solution from economic point of view; reactive power absorption may create high reactive power flow over the network, especially for networks with high R/X ratio. It would also incur additional loss in the feeder due to high current flow [5]. Authors in [6] have also proposed reactive power based voltage control
technique to mitigate voltage rise and also discussed the limitation of their technique. Application of storage devices integrated with residential PV systems was proposed in [7] to
store the surplus power from the PV array during noon time. The main purpose of this work [7] was to reduce the power loss caused by not being able to use the generated power from PV. Battery storage can store this unused energy locally for use in the evening peak load period. This operation can also reduce the voltage rise problem during peak PV generation by injecting less power to the grid and storing the excess energy in the battery storage while supporting the voltage during evening peak by serving the local loads from the battery storage and hence reducing stress on the grid.