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Filters: Author is Samal, Rajat Kanti  [Clear All Filters]
2023-02-03
Pani, Samita Rani, Samal, Rajat Kanti, Bera, Pallav Kumar.  2022.  A Graph-Theoretic Approach to Assess the Power Grid Vulnerabilities to Transmission Line Outages. 2022 International Conference on Intelligent Controller and Computing for Smart Power (ICICCSP). :1–6.
The outages and power shortages are common occurrences in today's world and they have a significant economic impact. These failures can be minimized by making the power grid topologically robust. Therefore, the vulnerability assessment in power systems has become a major concern. This paper considers both pure and extended topological method to analyse the vulnerability of the power system to single line failures. The lines are ranked based on four spectral graph metrics: spectral radius, algebraic connectivity, natural connectivity, and effective graph resistance. A correlation is established between all the four metrics. The impact of load uncertainty on the component ranking has been investigated. The vulnerability assessment has been done on IEEE 9-bus system. It is observed that load variation has minor impact on the ranking.
Pani, Samita Rani, Samal, Rajat Kanti.  2022.  Vulnerability Assessment of Power System Under N-1 Contingency Conditions. 2022 Second International Conference on Power, Control and Computing Technologies (ICPC2T). :1–4.
Despite the fact that the power grid is typically regarded as a relatively stable system, outages and electricity shortages are common occurrences. Grid security is mainly dependent on accurate vulnerability assessment. The vulnerability can be assessed in terms of topology-based metrics and flow-based metrics. In this work, power flow analysis is used to calculate the metrics under single line contingency (N-1) conditions. The effect of load uncertainty on system vulnerability is checked. The IEEE 30 bus power network has been used for the case study. It has been found that the variation in load demand affects the system vulnerability.