Eliminating zero-missing phenomenon in long, high voltage, underground cables

The maximum length of an high voltage underground cable (HV UGC) cable is oftenconstrained by the criterion that the cable cannot have more than 50% reactivepower compensation. If this limit is exceeded the current in the circuit breaker maynot have a zero crossing after energization, which is refer...

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Bibliographic Details
Main Author: Linnet, Agnes
Format: Bachelor Thesis
Language:English
Published: KTH, Skolan för elektroteknik och datavetenskap (EECS) 2019
Subjects:
Underground cable
zero-missing phenomenon
switching transients
shunt reactors
underexcited generators
Underjordisk kabel
nollbristande fenomen
växlingstransienter
shuntreaktorer
underexiterad generatorer
Engineering and Technology
Teknik och teknologier
Breaker
Iceland
Online Access:http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-253262
Description
Summary:The maximum length of an high voltage underground cable (HV UGC) cable is oftenconstrained by the criterion that the cable cannot have more than 50% reactivepower compensation. If this limit is exceeded the current in the circuit breaker maynot have a zero crossing after energization, which is referred to as the zero missingphenomenon. This is problematic if a fault occur shortly after energization. Inthe past 10 years, different methods have been proposed which would allow greaterreactive power compensation. These methods either prevent the zero missing phenomenon(preventive methods) or provide a way to open the circuit breaker if afault occurs (handling methods).A new 200 km, 220 kV line has been proposed in Iceland referred to as Sprengisandslína.One proposed option is to build it as an OHL-UGC-OHL line as the voltagecriteria is not fulfilled if Sprengisandslína is built as an UGC with a 50% reactivepower compensation. The aim of this thesis is to see whether the zero missing phenomenoncan be avoided by implementing countermeasures - this gives a preliminaryresults whether Sprengisandslína can be built as an UGC. In this thesis the four differentpreventive methods are analyzed with a transient study for Sprengisandslína:(1) Pre-insertion resistor, (2) simultaneous synchronized switching, (3) synchronizedswitching where the cable is energized before the shunt reactor, and (4) synchronizedswitching where the shunt reactor is energized before the cable.Preliminary steady state studies were performed to determine the minimum numberof shunt reactors needed to fulfill the voltage criteria. The results showed thatthe minimum number needed were three assuming they are all of equal size locatedevenly along the cable (one at each end and one in the middle). Additionally, it isnecessary to see whether the generators would become underexcited if the cable isiiienergized with 100% reactive power compensation as it can reduce the lifetime ofthe generators. The results showed that the generators did not become ...

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