RELIABILITY ANALYSIS OF PV NANOGRID USING STATE SPACE
ABSTRACT RELIABILITY ANALYSIS OF PV NANOGRID USING STATE SPACE By Ryandi NIM: 23220082 (Master’s Program in Electrical Engineering) The solar PV system benefits electrified islands in Indonesia, with many islands located in frontier, remote, and disadvantaged areas. PV nanogrid can serve a...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/63686 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | ABSTRACT
RELIABILITY ANALYSIS OF PV NANOGRID USING
STATE SPACE
By
Ryandi
NIM: 23220082
(Master’s Program in Electrical Engineering)
The solar PV system benefits electrified islands in Indonesia, with many islands
located in frontier, remote, and disadvantaged areas. PV nanogrid can serve a
single building up to 5 kW based on a solar PV system. This study describes the
modelling reliability of a PV nanogrid using state-space analysis with the Markov
process. It simulates three scenarios, where the basic scenario is PV nanogrid
consist of PV array and inverter, the Scenario 1 is a PV nanogrid with battery
system without maintenance, Scenario 2 is extension Scenario 1 with the
maintenance of the battery system, and Scenario 3 is a PV nanogrid connected to
the grid. The simulation uses MATLAB/ Simulink software to provide the reliability
and expected lifetime of the system. In this study, parameters and reliability data
use existing literature and standard. The sensitivity analysis shows the variation of
failure rates and repair rates and their effect. The results show that the additional
battery system increases the reliability and expected lifetime of the system, and the
battery system’s maintenance makes it higher. PV nanogrid connected to a grid
provides high reliability and a long expected lifetime. PV nanogrid is also evaluated
based on risk with a quantitative approach. The novelty of this research fills the
gap in the determination of maintenance to support the operation and maintenance
business model where maturity is still low.
Keywords: expected lifetime, Markov process, nanogrid, reliability, state space |
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