Optimal allocation strategy of energy storage for renewable energy power generation monitoring energy and information co-transmission system considering reliability
The main role of optical fiber transmission in the power industry is to transmit signals,and the transmission power of energy is small.In order to realize co-transmission of energy and information,and improve the system energy storage configuration,an optimization method for energy storage configuration of optical fiber co-transmission system considering multiple system attributes is studied.Firstly,the model of optical fiber co-transmission system is constructed,and various co-transmission topologies are analyzed,and five system attributes including energy storage stability,energy storage reliability,optical fiber transmission accuracy,system component service life,energy storage economy were considered.Under the prospect theory,the optimization objective function of energy storage configuration of the optical fiber energy and communication co-transmission system was constructed with the goal of maximizing the comprehensive prospect value during the operation cycle.And the constraints of reachable total transmission rate and interruption probability are set to optimize the energy storage configuration of the optical fiber cotransmission system.Simulation results show that the proposed energy storage optimization configuration strategy is reliable.
Co-transmission of energy and informationoptimized configurationStabilityOptical fiber transmission accuracyInterrupt probability
万方数据
维普
