Title :
Increased transmission capacity by forced symmetrization
Author :
Glavitsch, Hans ; Rahmani, Mohanied
Author_Institution :
Swiss Fed. Inst. of Technol., Zurich, Switzerland
fDate :
2/1/1998 12:00:00 AM
Abstract :
Present planning procedures are based on single outages of three-phase circuits which do not take the actual fault pattern into account. The majority of faults are single-phase faults which is motivating the present approach to exploit the remaining conductors for power transmission. A shunt device (FACTS) is conceived which is able to generate a loading pattern at breaker locations with one or two phases open such that the network side always sees a symmetrical loading. The theoretical background is given and numerical examples illustrate the efficiency of the concept. The circuit affected by a fault may be modelled by a positive sequence impedance which can be inserted in ordinary power flow programs for security calculations
Keywords :
electrical faults; flexible AC transmission systems; power system planning; power system security; power transmission; EHV three-phase circuits; FACTS; breaker locations; fault pattern; forced symmetrization; loading pattern generation; planning procedures; positive sequence impedance; power flow programs; security calculations; shunt device; single-phase faults; symmetrical loading; transmission capacity improvement; Circuit faults; Conductors; Impedance; Load flow; Power system analysis computing; Power system economics; Power system planning; Power system security; Technology planning; Voltage;
Journal_Title :
Power Systems, IEEE Transactions on
