Title :
Short term generation scheduling with security constraints
Author :
Brännlund, H. ; Sjelvgren, D. ; Bubenko, Janis A.
Author_Institution :
Swedish State Power Board, Vallingby, Sweden
fDate :
2/1/1988 12:00:00 AM
Abstract :
The authors discuss network flow concepts as a means of modeling a large multiriver system with cascaded hydro plants for purposes of generation scheduling. The reservoir dynamics are described by network flow balance equations. A nonlinear modeling approach is taken to represent hydro-plant generating characteristics, and variable reservoir heads are permitted. The system model recognizes security constraints in the form of interregional transmission-capacity limitations. The resulting large-scale mathematical programming problem is solved by using a reduced-gradient algorithm specialized to exploit the embedded network structure of the hydrological system. The additional security constraints are handled by a gradient-protection scheme that is based on estimates of the Lagrange multipliers associated with binding constraints. The estimates of the multipliers are determined by solving a small, quadratic minimization problem
Keywords :
hydroelectric power stations; power station control; scheduling; Lagrange multipliers; generation scheduling; hydro plants; hydroelectric power generation; mathematical programming; network flow; nonlinear modeling; power station control; reservoir dynamics; security constraints; transmission-capacity; Character generation; Job shop scheduling; Large-scale systems; Nonlinear dynamical systems; Nonlinear equations; Power generation; Power system modeling; Power system security; Production systems; Reservoirs;
Journal_Title :
Power Systems, IEEE Transactions on
