Abstract
The ever increasing presence of renewable distributed generation (DG) in microgrids is imposing new challenges in protection coordination. The high penetration of renewable DG enables microgrids to operate under different topologies, giving rise to bidirectional power flows and in consequence, rendering traditional coordination approaches inappropriate to guarantee network security. This paper proposes an approach for the optimal coordination of directional over-current relays (OCRs) in microgrids that integrate renewable DG and feature several operational modes. As a main contribution, the characteristic curves of directional OCRs are considered to be decision variables, instead of fixing a single type of curve for all relays as considered in previous works. The proposed approach allows for the selection of several IEC and IEEE curves which combination results in the best protection coordination. Several tests were carried out on an IEC benchmark microgrid in order to show the applicability of the proposed approach. Furthermore, a comparison with other coordination approaches evidenced that the proposed approach is able to find lower operation times and, at the same time, guarantee the suitable operation of protections under different condition faults and operational modes.
Highlights
Nowadays, the rapid incorporation of renewable distributed generation (DG) in modern distribution networks (DNs) has introduced new paradigms to the traditional energy generation scheme
The microgrid is connected to the main supply network working together with DG1 and DG2, while DG3 and DG4 are disconnected
The TMS and StandarCurvei are presented for each relay as well as the sum of the operating times for all relays T (s) for all operational modes (OMs) which represents the objective function (OF) of the problem
Summary
The rapid incorporation of renewable DG in modern distribution networks (DNs) has introduced new paradigms to the traditional energy generation scheme. For high standards of quality, energy management, and efficiency; DG has been configured into microgrids that favor the rapid use of renewable energy resources. Such incorporation brings along new challenges for engineers and designers around the world [1,2]. DG changed the traditional configuration of unidirectional power flows in DNs where there is only a single generation bus. With the presence of DG, there are multiple generation buses that produce bidirectional power flows and variable short circuit levels [3]. New protection systems must guarantee the stability of the protection scheme under intermittent DG units and loads, and under the possibility of switching between grid-connected and islanded modes [4,5]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
