Reliability Modeling and Evaluation in Aging Power Systems
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Date
2010-01-14
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Abstract
Renewal process has been often employed as a mathematical model of the
failure and repair cycle of components in power system reliability assessment. This
implies that after repair, the component is assumed to be restored to be in as good as new
condition in terms of reliability perspective. However, some of the components may
enter an aging stage as the system grows older. This thesis describes how aging
characteristics of a system may impact the calculation of commonly used quantitative
reliability indices such as Loss of Load Expectation (LOLE), Loss of Load Duration
(LOLD), and Expected Energy Not Supplied (EENS).
To build the history of working and failure states of a system, Stochastic Point
Process modeling based on Sequential Monte Carlo simulation is introduced. Power Law
Process is modeled as the failure rate function of aging components. Power system
reliability analysis can be made at the generation capacity level where transmission
constraints may be included. The simulation technique is applied to the Single Area
IEEE Reliability Test System (RTS) and the results are evaluated and compared. The results show that reliability indices become increased as the age of the
system grows.
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Keywords
Power system reliability, Aging model, Monte Carlo, Loss of load