Figures index

From

Technique for Continuation Power Flow Using the “Flat Start” and for Ill-Conditioned Systems

Bonini Neto A., Matarucco R. R., Alves D. A.

World Journal Control Science and Engineering. 2015, 3(1), 1-7
  • Figure 1. Performance of the method, (a) λ-∑yk curve, (b) region around MLP enlarged
  • Figure 2. Flowchart of the method using the λ-∑yk plan
  • Figure 3. Diagram of the 11 bus system
  • Figure 4. Performance of the method for the 11 bus system with Δα = 1.0: (a) ∑yk in function of λ (proposed method), (b) P-V curves (stored points), (c) number of iterations
  • Figure 5. Performance of the method for the 11 bus system with step reduction, Δα = 0.1: (a) ∑yk in function of λ (proposed method), (b) P-V curves (stored points), (c) number of iterations
  • Figure 6. Performance of the method for the IEEE-300 bus system with Δα = 1.0 fixed: (a) ∑yk in function of λ (proposed method), (b) details of the tracing process of the MLP region, (c) P-V curve of the critical bus (stored points), (d) number of iterations
  • Figure 7. Performance of the method for the IEEE-300 bus system with duplicate step, Δα = 2.0 fixed: (a) P-V curve of the critical bus (stored points) with duplicate step, (b) number of iterations
  • Figure 8. Performance of the method for post-contingency of the 638-bus system corresponding to part of South-Southeast Brazilian system with Δα = 1.0 fixed: (a) ∑yk in function of λ (proposed method), (b). details of the tracing process of the MLP region