Title :
Thermal unit commitment including optimal AC power flow constraints
Author :
Sánchez, Carlos Murillo ; Thomas, Robert J.
Author_Institution :
Sch. of Electr. Eng., Cornell Univ., Ithaca, NY, USA
Abstract :
The authors propose a new algorithm for unit commitment that employs a Lagrange relaxation technique with a new augmentation of the Lagrangian. The new augmentation involves a duplication of variables that allows relaxation of the coupling between generator time-spanning constraints and system-wide instantaneous constraints. This framework allows the possibility of committing units that are required for the VArs that they can produce, as well as for their real power. Furthermore, although the algorithm is very CPU-intensive, the separation structure of the Lagrangian allows its implementation in parallel computers. Their work builds upon that of Batut and Renaud (1992), as well as that of Baldick (1995)
Keywords :
load dispatching; load distribution; parallel algorithms; parallel processing; power system analysis computing; relaxation theory; Lagrange relaxation technique; VArs; algorithm; augmented Lagrangian; generator time-spanning constraints; optimal AC power flow constraints; parallel computers; separation structure; system-wide instantaneous constraints; thermal unit commitment; variable duplication; AC generators; Concurrent computing; Cost function; Lagrangian functions; Load flow; Power generation; Production; Reactive power; State-space methods; Thermal decomposition;
Conference_Titel :
System Sciences, 1998., Proceedings of the Thirty-First Hawaii International Conference on
Conference_Location :
Kohala Coast, HI
Print_ISBN :
0-8186-8255-8
DOI :
10.1109/HICSS.1998.656047
