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Energies | Free Full-Text | Review on the Optimal Configuration of Distributed Energy Storage

With the large-scale access of renewable energy, the randomness, fluctuation and intermittency of renewable energy have great influence on the stable operation of a power system. Energy storage is considered to be an important flexible resource to enhance the flexibility of the power grid, absorb a high proportion of new energy and satisfy the dynamic balance between the supply and demand of a system. At present, the cost of energy storage is still high, and how to achieve the optimal energy storage configuration is the primary problem to be solved. Therefore, the current research progress in energy storage application scenarios, modeling method and optimal configuration strategies on the power generation side, grid side and user side are summarized in this paper. On this basis, the shortcomings that still exist of energy storage configuration research are summarized, and the future research direction for energy storage configuration is prospected. This review can provide reference for ....

Optimal Configuration Of Distributed Energy Storage , Application Status Of Distributed Energy Storage , Distributed Energy , Active Support Ability , Fault Ride Through Capability , System Peak , System Voltage , System Frequency ,

"A novel fault ride-through capability improvement scheme for the hybri" by Safdar Rasool, Kashem M. Muttaqi et al.

The hybrid offshore wind-wave energy conversion systems (HOW-WECS) have a huge potential for clean electricity production. However, many of the technical challenges associated with HOW-WECS need to be addressed before its full-scale commercialization. One of the main challenges is the fault ride-through (FRT) capability of the HOW-WECS, which is the focus of this study, as this issue has not been addressed in any of the previous studies. In this study, multiple linear generator-based wave energy converters (WECs) are integrated with a single doubly-fed induction generator (DFIG)-based wind energy conversion system to form the HOW-WECS. A new scheme is proposed to enhance the FRT capability by controlling the damping forces of the integrated WECs. During fault conditions, the excess kinetic energy of the wind turbine can be absorbed by the linear generator-based WECs through damping control. In this way, the dc-link voltage of the back-to-back power electronic converters of the DFIG can ....

Damping Force , Fault Ride Through Capability , Ybrid Wind Wave System , Linear Generator , Wave Energy Converter ,