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Abstract
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Move to the installation of the stand-alone photovoltaic (PV) systems for the remote and critical areas
has been increased due to the technical advantages of them alongside the low investment cost. However,
accurate reliability calculation of the stand-alone PV system is essential to verify its suitability for being
a sustainable energy system. This paper proposes a new method for calculation of the stand-alone
PV system’s reliability without any assumption. In order to consider the uncertainty of the global solar
irradiation on the output power of the system, stochastic modeling is hypothesized in this paper. Fast
forward scenario reduction approach is used to reduce the number of the scenarios so as to decrease the
execution time. Moreover, the effect of the ambient conditions such as temperature and humidity on the
failure rate of the components, and the aging issue of the PV modules are taken into account to evaluate
the reliability metrics precisely. The proposed approach for reliability assessment has been examined on
the test system. The calculated results manifested that the stand-alone PV system can be utilized as a
reliable system; however, the ambient conditions would reduce its availability.
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