Title :
Metal oxide varistor to limit dynamic overvoltages at the terminals of an HVDC converter
Author :
Nya, S. ; Atmuri, S.R. ; Gordon, D.L. ; Koschik, V.
Author_Institution :
Manitoba HVDC Res. Centre, Winnipeg, Man., Canada
fDate :
4/1/1988 12:00:00 AM
Abstract :
An investigation is reported of the technical and economic implications associated with using metal-oxide surge-arrester technology together with mechanically switched shunt capacitors to limit dynamic overvoltage (DOV) and provide reactive power at the inverter bus of a test system characterized by low short-circuit ratio. A conceptual design for a metal oxide varistor (MOV), that utilizes parallel metal-oxide surge-arrester columns in combination with a switching device and controls is proposed. Its cost, as well as that of the shunt capacitors, is estimated. It is demonstrated that a combination of MOV and shunt capacitors is an effective and potentially economical means of limiting DOV and providing reactive power compensation at the terminals of HVDC converters
Keywords :
DC power transmission; overvoltage; overvoltage protection; power convertors; surge protection; varistors; HVDC converter; HVDC converters; design; dynamic overvoltages; inverter bus; metal oxide varistor; power convertors; reactive power compensation; short-circuit ratio; shunt capacitors; surge protection; surge-arrester; switching device; Capacitors; Costs; HVDC transmission; Inverters; Power generation economics; Power system economics; Reactive power; Surges; System testing; Varistors;
Journal_Title :
Power Delivery, IEEE Transactions on
