Development Of Fault Zone Indentification Technique For Fault Location In A Medium Voltage Distribution Network
The power system network mainly consists of the generation, transmission, distribution and its loads (ordinary power consumers and large power consumers). Receiving feedback from the transmission system, the electric power distribution system forms the final stage in the delivery of electric powe...
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| Language: | English |
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2023
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| Summary: | The power system network mainly consists of the generation, transmission,
distribution and its loads (ordinary power consumers and large power consumers).
Receiving feedback from the transmission system, the electric power distribution
system forms the final stage in the delivery of electric power where the voltage value
incoming from the transmission line is step down from high voltages such as 33kV,
22kV, 11kV and 6.6kV to low voltages 433/250V to be supplied to small power
consumers. Fault occurrences is a continuous event that the distribution system
experiences due to various phenomenon such as aging equipments, equipment failures
in transformers and rotating machines, human errors and environmental conditions
such as lightning strikes. These faults are abnormal conditions which can lead to
interruption in electric flows, loss in voltage production resulting in power loss to
consumers, equipment damages which results in costly and extensive repairs that
affects the power system reliability to deliver electricity to its end consumers. Fault
studies form an important part of power system analysis. When various types of fault
occurs, the challenge is determining the bus voltages, line currents and locating the
fault to minimize the impact of fault in distribution systems. Therefore, suitable
methods are developed to overcome this problem such as impedance based methods
and other fundamental frequency methods. Furthermore, much recently,
knowledge-based methods have been developed which can be further divided to
artificial intelligence techniques include Artificial Neural Network (ANN), hybrid
methods, fuzzy logic, travelling wave and matching methods. The OpenDSS is an
electric power Distribution System Simulator (DSS) used for supporting distributed
resource integration and grid modernization efforts. The OpenDSS scripting language
is designed to be reasonably close to common text data formats used in distribution
system analysis tools and can be used to model transmission networks as well as
distribution circuits. In this paper, we will use a machine learning language which is
an open source distribution system simulation software (OpenDSS) to run fault
simulations and identify the fault type. |
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