Title :
A hybrid model for quantifying different operating states of composite power systems
Author :
Khan, M.E. ; Billinton, R.
Author_Institution :
Saskatchewan Univ., Saskatoon, Sask., Canada
fDate :
2/1/1992 12:00:00 AM
Abstract :
The two most popular approaches for power system reliability evaluation, namely contingency enumeration and Monte Carlo simulation, have been combined to form a hybrid model to analyze different system operating states to provide a quantitative assessment of system risk. Both annualized and annual indices obtained using a seven-step load model are presented for two test systems. Selection methods are used to detect problem creating contingencies. A linear programming model for generation rescheduling, minimization of the amount of load shed, and correction of the voltage problem and Q-load curtailment is utilized with the hybrid model. Variance reduction techniques were investigated in order to reduce the computation time and to improve the simulation results
Keywords :
Monte Carlo methods; digital simulation; linear programming; power system analysis computing; reliability; Monte Carlo simulation; Q-load curtailment; composite power systems; contingency enumeration; generation rescheduling; hybrid model; linear programming model; load shed minimisation; operating states; power system reliability evaluation; seven-step load model; variance reduction techniques; voltage problem correction; Computational modeling; Hybrid power systems; Interconnected systems; Power system modeling; Power system planning; Power system reliability; Power system security; Power system simulation; Probability distribution; Sampling methods;
Journal_Title :
Power Systems, IEEE Transactions on
