Title :
Economic dispatch with network and ramping constraints via interior point methods
Author :
Irisarri, G. ; Kimball, L.M. ; Clements, A. ; Bagchi, A. ; Davis, P.W.
Author_Institution :
Open Access Technol. Int., Minneapolis, MN, USA
fDate :
2/1/1998 12:00:00 AM
Abstract :
The authors describe an approach to the economic dispatch problem that combines both time-separated constraints (e.g., demand and network flow) and inter-temporal constraints (e.g., ramping) into a single optimization problem that can be solved efficiently by interior point methods. By including generator ramping limits as well as network line flow constraints, both economic and security issues are treated simultaneously, avoiding ad hoc post processing. They present several test cases, including dispatching six generators on the IEEE 30-bus network over 168 hours with line flow and ramping constraints. Computational effort as measured by iteration counts or execution time (CPU sees) varies only modestly with problem size
Keywords :
control system analysis computing; control system synthesis; economics; load dispatching; optimal control; power system analysis computing; power system control; CPU time; IEEE 30-bus network; computational effort; computer simulation; generator ramping limits; inter-temporal constraints; interior point methods; network constraints; network line flow constraints; power system economic dispatch; ramping constraints; security issues; time-separated constraints; Constraint optimization; Costs; Dynamic programming; Economic forecasting; Fuel economy; Power generation; Power generation economics; Power system economics; Power systems; Testing;
Journal_Title :
Power Systems, IEEE Transactions on
