The active and reactive power transfers to and from nodes connected to h.v.d.c. links do not obey the general rules of a.c. power transmission, the active power is independent of phase angle relationships and the reactive power is not directly related...
The active and reactive power transfers to and from nodes connected to h.v.d.c. links do not obey the general rules of a.c. power transmission, the active power is independent of phase angle relationships and the reactive power is not directly related to voltage variation.
Under such circumstances it is difficult to visualize h.v.d.c. model compatible with the behaviour of the fast decoupled algorithm.
However, acknowledging the general acceptance of fast decoupled programes and the existence of some h.v.d.c. links(particularly considering their large power-carrying capacitors) a model of the h.v.d.c. transmission link suitable for incorporation with fast decoupled loadflow programes is described in the following sections.