MAIN PARAMETER DETERMINATION OF PROTECTION SYSTEM ON INTEGRATED ELECTRICAL SYSTEM WITH DISTRIBUTED GENERATION
The power system always experiences technological innovations over time. The innovation on the generation side allows the generation of electricity by users whose locations are scattered and distributed throughout the system. Decentralized generation, which is generally renewable energy, cause...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/55928 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The power system always experiences technological innovations over time.
The innovation on the generation side allows the generation of electricity by users
whose locations are scattered and distributed throughout the system. Decentralized
generation, which is generally renewable energy, causes changes in system
conditions from time to time, starting from changes in power flow and the
magnitude of short circuit currents that increase due to additional generation
sources. Changes in system conditions will result in a different required protection
system scheme and can cause the protection system to be unreliable, resulting in
protection failure. In order for the system to remain safe and stable under any
conditions, a protection system that can adapt to system changes is needed, but to
make it happen, a complex communication system is needed. One solution to this
problem is by designing a relay that works with one parameter whose changes are
consistent with system conditions. In this research, a study of the main parameters
that are consistent with changes in the distribution system integrated with
distributed generation is carried out and an algorithm is made of the relay that
utilizes the parameters of the previous findings. The simulation results show that
voltage is more reliable than current, and the designed algorithm works accurately
in determinining the type of fault that occurs |
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