A network application package with a centralized topology engine

Author

Kussel, R. ; Kaiser, U. ; Apel, R.

Author_Institution

ABB Utility Autom. GmbH, Ladenburg, Germany

fYear

1999

Firstpage

123

Abstract

The efficiency of sparse matrix and vector methods in calculating the state of electrical networks is beyond dispute. Kussel et al. (1996) have shown that extended use of sparse matrix methods sets new standards of efficiency in determining the topological state of an electrical network. Due to the fact that the main data structure used by the new topology method already contains all items to build up the Jacobean, the complete sequence of an online network calculation like load flow or state estimation has been abridged drastically. Such methods are capable of updating network data structures and performing a load flow calculation even for large EMS, very large DMS-networks or a mix of both in a few seconds. On this basis the authors have developed a network application package with a centralized topology engine which has been implemented in an advanced DMS system.

Keywords

energy management systems; load flow; power system analysis computing; power system state estimation; sparse matrices; vectors; DMS; EMS; centralized topology engine; computer simulation; electrical network topological state; load flow; network application package; network data structures; sparse matrix method efficiency; state estimation; vector methods efficiency; Automation; Control systems; Databases; Energy management; Engines; Jacobian matrices; Load flow; Network topology; Packaging; Sparse matrices;

fLanguage

English

Publisher

ieee

Conference_Titel

Electric Power Engineering, 1999. PowerTech Budapest 99. International Conference on

Conference_Location

Budapest, Hungary

Print_ISBN

0-7803-5836-8

Type

conf

DOI

10.1109/PTC.1999.826554

Filename

826554