The paper examines the use of contingency analysis for a nuclear power plant to determine its potential benefits for the nuclear industry. Various N-1 contingencies were analyzed for a model of an existing nuclear plant, primarily inspecting voltage violations resulting from a failure.
The key highlights and insights are:
Contingency analysis can identify potential vulnerabilities in the nuclear power plant's electrical system, such as voltage violations beyond the acceptable range, that may occur due to the failure of various components like transformers, buses, or breakers.
Remedial Action Schemes (RAS) were suggested to mitigate the voltage violations identified in the event of a failure within the system. These RAS include measures like performing fast bus transfers, shedding non-critical loads, and coordinating with grid operators to adjust power production.
Many of the voltage violations identified were already addressed through the use of industry-standard bounding analysis and redundant protection schemes in the plant's design process. This highlights the inherent robustness of nuclear power plants compared to other generation sources.
The paper proposes the future use of real-time contingency analysis for nuclear power plants, where constantly updated voltage, current, and power measurements throughout the system would be used to provide real-time information about the system's status. This data could also serve as historical information to reduce the analysis needed for pending design changes in the plant.
Incorporating Probabilistic Risk Analysis (PRA) in the electrical distribution system to determine the most probable and/or most consequential events could further enhance the effectiveness of the contingency analysis approach for nuclear power plants.
Overall, the paper demonstrates that while nuclear power plants already have robust electrical systems, the use of contingency analysis can provide additional insights to improve the reliability and resilience of these critical facilities.
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