Title :
Control area performance improvement by extended security constrained economic dispatch
Author :
Barcelo, Wayne R. ; Rastgoufard, Parviz
Author_Institution :
Dept. of Electr. Eng., Tulane Univ., New Orleans, LA, USA
fDate :
2/1/1997 12:00:00 AM
Abstract :
An algorithm for solving the extended security constrained economic dispatch (ESCED) problem with real-time economic dispatch grade speed and reliability is presented. The ESCED problem is formulated by adding a regulating margin and ramp rate constraints to the network security constrained economic dispatch problem previously solved by the CEDC algorithm. Starting with Newton´s method to optimize the Lagrangian, the ESCED is developed by superimposing on Newton´s method eight major components called tracking start initialization, hessian pre-elimination, implicit dual variable calculations, regulating margin sensitivity coefficient calculations, traumatic event evaluation, constraint relaxation, implicit ramp rate constraint implementation, and relaxed incremental cost calculations. Test results are also presented
Keywords :
Newton method; economics; load dispatching; power system control; power system security; Newton´s method; constraint relaxation; control area performance improvement; extended security constrained economic dispatch; hessian pre-elimination; implicit dual variable calculations; implicit ramp rate constraint implementation; ramp rate constraints; real-time economic dispatch; regulating margin; regulating margin sensitivity coefficient calculations; relaxed incremental cost calculations; reliability; tracking start initialization; traumatic event evaluation; Data security; Frequency; Newton method; Power generation economics; Power system economics; Power system management; Power system reliability; Power system security; Strain control; Testing;
Journal_Title :
Power Systems, IEEE Transactions on
