DESIGN OF ADAPTIVE OVERCURRENT RELAY OF DISTRIBUTION SYSTEM WITH DISTRIBUTED GENERATION IN GRID-CONNECTED AND ISLANDED MODE
In recent times, the use of microgrid-based distributed generation with the application of renewable energy is considered to provide clean and efficient energy. However, the microgrid provides the possibility for distribution systems to operate in grid-connected or islanded. The use of distribu...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/55602 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | In recent times, the use of microgrid-based distributed generation with the
application of renewable energy is considered to provide clean and efficient energy.
However, the microgrid provides the possibility for distribution systems to operate
in grid-connected or islanded. The use of distributed generation based on
renewable energy provides a different short circuit current level when the
distribution system operates in grid-connected or islanded. It causes the existing
overcurrent protection to be not selective and fast in handling faults. This situation
has an impact on increasing the likelihood of generation relays or relays far from
the fault location are working first in clearing faults, with the result that will be a
lot of loads that are not supplied by the generator, or the generator loses from the
system. The main objective of this thesis is to design adaptive overcurrent
protection, using load flow and short circuit simulation in both operating
conditions, to obtain overcurrent relay settings. Load flow simulations were carried
out using ETAP and short circuit simulations for several test buses were carried
out using MATLAB / Simulink. The activation of the relay setting characteristics is
updated through the status of the point of common coupling to determine whether
the system is operation grid-connected or islanded. This research focuses on
discussing the speed of inverse-time overcurrent protection through main
protection and backup protection relays, with no other relay running faster. The
simulation results in MATLAB / Simulink show that the relay settings designed to
provide trip times in handled faults follow the applicable standards for main
protection and backup protection relay.
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