Impact of inverter system towards harmonic restraint used in three phase transformer differential protection system
Differential protection is mostly used in power transformer to protect against the event of internal faults since it considers as one of the fast clearing method. During the occurrence of any fault, this differential protection detects the nonzero differential current and activates a circuit brea...
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| Format: | text::Thesis |
| Language: | English |
| Published: |
2023
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| Subjects: | |
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| Summary: | Differential protection is mostly used in power transformer to protect against the event
of internal faults since it considers as one of the fast clearing method. During the
occurrence of any fault, this differential protection detects the nonzero differential
current and activates a circuit breaker that isolates the power transformer from the
electrical system. This will cause the protective relay to trip unnecessarily where the
relay should have been activated at all. Inrush current is also known as magnetizing
inrush current, chiefly, a transient current that produced only when the power
transformer is first energized and due to saturation of CT (current transformer). Inrush
current contains a number of harmonics components and the percentage of the second
harmonic relatively will be higher during an inrush event. Whereas, a fault current
occurs in the protection system is high in magnitude and is free from second harmonics
contents. The existing differential transformer protection need to improve so that it can
differentiate the differential current appear due to internal fault and produced during
the magnetizing inrush event. In order to enhance the security and the sensitivity of
the protective relay, many restraint method have been introduced to restrain the
operation of the differential element. A proper restraint method is identified to
implement in the system to distinguish the transformer fault current and inrush current
based on the content of harmonics in the line current of the transformer. In this project,
a harmonic restraint circuit is designed to find the ratio of the second harmonics to the
fundamental value and compare it to a predetermined set point. The purpose of the
relay to take a decision on tripping or restraining based on the ratio obtained and after
compare to the set point. Besides that, an inverter system is replaced in the main
voltage source and tested with the circuit to compare the results obtained with and
without the presence of the inverter system and analyses the effect of inverter system
with harmonic restraint. The circuit was built for the three-phase transformer and
tested through a Matlab Simulink and found that fulfill the aim for which it has been
created. |
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