Intrinsic Geometric Analysis of the Network Reliability and Voltage Stability
N. Gupta, B. N. Tiwari, and S. Bellucci
TL;DR
This paper introduces an intrinsic geometric model for analyzing power system reliability and voltage stability, demonstrating its accuracy and efficiency through application to the IEEE 5 bus system and parameter variations.
Contribution
The paper develops a novel intrinsic geometric approach for large-scale nonlinear power system analysis, focusing on network reliability and voltage stability.
Findings
Model accurately predicts system stability.
Efficient analytical solution for complex networks.
Robustness demonstrated through parameter variations.
Abstract
This paper presents the intrinsic geometric model for the solution of power system planning and its operation. This problem is large-scale and nonlinear, in general. Thus, we have developed the intrinsic geometric model for the network reliability and voltage stability, and examined it for the IEEE 5 bus system. The robustness of the proposed model is illustrated by introducing variations of the network parameters. Exact analytical results show the accuracy as well as the efficiency of the proposed solution technique.
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Taxonomy
TopicsOptimal Power Flow Distribution · Power System Optimization and Stability · Numerical methods for differential equations