Modeling and Simulation of a PV-Diesel-Battery System for a Standalone Microgrid

This paper presents a standalone Photovoltaic (PV)-diesel-battery system for a resort island. The system is designed to meet the demand for a typical load for islands in the South China Sea. The location selected is Tioman Island as it represents typical resort island within the South China Sea. The...

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Main Authors: Khan, M.R.B., Pasupuleti, J., Al-Fattah, J., Tahmasebi, M.
Format: Conference Paper
Language:English
Published: 2020
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spelling my.uniten.dspace-130622020-07-06T03:52:50Z Modeling and Simulation of a PV-Diesel-Battery System for a Standalone Microgrid Khan, M.R.B. Pasupuleti, J. Al-Fattah, J. Tahmasebi, M. This paper presents a standalone Photovoltaic (PV)-diesel-battery system for a resort island. The system is designed to meet the demand for a typical load for islands in the South China Sea. The location selected is Tioman Island as it represents typical resort island within the South China Sea. The populations in these areas depends on diesel generations for electricity that have unpredictable prices, high operation costs, and high amount of greenhouse gasses such as CO2. However, these islands have potential for installation of PV and other renewable energy (RE) generations due to the land sizes and abundance of renewable resources. Hence, this study aims to develop a PV model to simulate the performance of an actual system deployed on the island. The system comprises of a 1 MW PV array, Maximum Power Point Tracking (MPPT) based on incremental conductance method that are connected to 11 kV distribution network. The model utilizes actual renewable resource input such as irradiance and temperature to simulate the potential PV system generation. Moreover, actual load profile used to demonstrate the capability of a PV system to satisfy the island's load demand. This model is highly customizable where PV model, MPPT algorithm can be varied to simulate performance of other configurations. © 2018 IEEE. 2020-02-03T03:30:08Z 2020-02-03T03:30:08Z 2019 Conference Paper 10.1109/ICSIMA.2018.8688744 en
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
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language English
description This paper presents a standalone Photovoltaic (PV)-diesel-battery system for a resort island. The system is designed to meet the demand for a typical load for islands in the South China Sea. The location selected is Tioman Island as it represents typical resort island within the South China Sea. The populations in these areas depends on diesel generations for electricity that have unpredictable prices, high operation costs, and high amount of greenhouse gasses such as CO2. However, these islands have potential for installation of PV and other renewable energy (RE) generations due to the land sizes and abundance of renewable resources. Hence, this study aims to develop a PV model to simulate the performance of an actual system deployed on the island. The system comprises of a 1 MW PV array, Maximum Power Point Tracking (MPPT) based on incremental conductance method that are connected to 11 kV distribution network. The model utilizes actual renewable resource input such as irradiance and temperature to simulate the potential PV system generation. Moreover, actual load profile used to demonstrate the capability of a PV system to satisfy the island's load demand. This model is highly customizable where PV model, MPPT algorithm can be varied to simulate performance of other configurations. © 2018 IEEE.
format Conference Paper
author Khan, M.R.B.
Pasupuleti, J.
Al-Fattah, J.
Tahmasebi, M.
spellingShingle Khan, M.R.B.
Pasupuleti, J.
Al-Fattah, J.
Tahmasebi, M.
Modeling and Simulation of a PV-Diesel-Battery System for a Standalone Microgrid
author_facet Khan, M.R.B.
Pasupuleti, J.
Al-Fattah, J.
Tahmasebi, M.
author_sort Khan, M.R.B.
title Modeling and Simulation of a PV-Diesel-Battery System for a Standalone Microgrid
title_short Modeling and Simulation of a PV-Diesel-Battery System for a Standalone Microgrid
title_full Modeling and Simulation of a PV-Diesel-Battery System for a Standalone Microgrid
title_fullStr Modeling and Simulation of a PV-Diesel-Battery System for a Standalone Microgrid
title_full_unstemmed Modeling and Simulation of a PV-Diesel-Battery System for a Standalone Microgrid
title_sort modeling and simulation of a pv-diesel-battery system for a standalone microgrid
publishDate 2020
_version_ 1672614202902052864
score 13.222552