Title :
General purpose fast decoupled power flow
Author :
Nanda, J. ; Bijwe, P.R. ; Henry, J. ; Raju, V. Bapi
Author_Institution :
Dept. of Electr. Eng., Indian Inst. of Technol., New Delhi, India
fDate :
3/1/1992 12:00:00 AM
Abstract :
A general purpose fast decoupled power flow model (GFDPF) is presented that exhibits more or less best convergence properties for both well-behaved and ill-conditioned systems. In the proposed model, all network shunts such as line charging, external shunts at buses, shunts formed due to π representation of off-nominal in-phase transformers etc. are treated as constant impedance loads. The effect of line resistances is considered while forming the [B\´] matrix and is ignored in forming the [B"] matrix. This model is tested on several systems for both well-behaved and ill-conditioned situations. A simple, efficient compensation technique is proposed to deal with Q-limit enforcements associated with bus-type switchings at voltage-controlled buses. The results demonstrate that the proposed GFDPF model exhibits more or less stable convergence behaviour for both well-behaved and ill-conditioned situations
Keywords :
convergence; load flow; Q-limit enforcements; bus-type switchings; buses; compensation; convergence properties; external shunts; general purpose fast decoupled power flow model; ill-conditioned systems; line charging; line resistances; off-nominal in-phase transformers; voltage-controlled buses; well-behaved systems;
Journal_Title :
Generation, Transmission and Distribution, IEE Proceedings C
