INCORPORATION OF HVDC AND SVC MODELS IN THE NORTHERN-STATE-POWER-CO (NSP) NETWORK FOR ONLINE IMPLEMENTATION OF DIRECT TRANSIENT STABILITY ASSESSMENT

In this paper we discuss the incorporation of the 4 de systems and 2 S VCs in the NSP network for on-line implementation of direct transient stability assessment. The de and SVC models used are more complicated than those used in the existing AC-DC-SVC Transient Energy Function (T EF) literature. In this new approach, the commutation failure of the H VDC is also considered. It is necessary to use these complicated de an d SVC models because in the NSP network they are located in an area wh ere the transient stability is of great concern. The de and SVC system s are treated as part of the ac network and their effect on the transi ent energy function is included. The effect of de and SVC on the calcu lation of the potential energy is reflected in the ac network solution . The equivalent models and the proposed procedure developed is tested on a NSP equivalent network of 273 generators and 2217 buses. The res ult obtained are in excellent agreement with those obtained by time do main simulation using EPRI ETMSP V3.0.