PRELIMINARY DESIGN OF A MOORING SYSTEM FOR 1 MWP FLOATING PHOTOVOLTAIC IN JATIGEDE RESERVOIR, WEST JAVA

PRELIMINARY DESIGN OF A MOORING SYSTEM FOR 1 MWP FLOATING PHOTOVOLTAIC IN JATIGEDE RESERVOIR, WEST JAVA

The Government of Indonesia targets to achieve a share of 23% of the renewable energy mix by 2025 and 31% by 2050. National Energy General Plan (RUEN) states that solar power is one of the potential renewable energy sources in Indonesia, around 207,898 MW. However, the construction of Solar Photovol...

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Main Author: Kristian P S, Pandu
Format: Final Project
Language:Indonesia
Subjects:
Teknik (Rekayasa, enjinering dan kegiatan berkaitan)
Online Access:https://digilib.itb.ac.id/gdl/view/61827
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:61827
spelling id-itb.:618272021-09-28T08:37:15ZPRELIMINARY DESIGN OF A MOORING SYSTEM FOR 1 MWP FLOATING PHOTOVOLTAIC IN JATIGEDE RESERVOIR, WEST JAVA Kristian P S, Pandu Teknik (Rekayasa, enjinering dan kegiatan berkaitan) Indonesia Final Project Floating Photovoltaic, mooring, dynamic analysis, maximum offset INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/61827 The Government of Indonesia targets to achieve a share of 23% of the renewable energy mix by 2025 and 31% by 2050. National Energy General Plan (RUEN) states that solar power is one of the potential renewable energy sources in Indonesia, around 207,898 MW. However, the construction of Solar Photovoltaic is not easy, especially related to land availability. One of the solutions is to put solar panels on top of a body of water or known as Floating Photovoltaic (FPV). In this Final Project, a 1 MWp FPV is designed in Jatigede Reservoir, West Java specifically for the mooring system. The 1 MWp Floating PLTS consists of 10 separate floating structures each with a capacity of around 100 kWp. The layout of 1 structure has a length of 36.54 m and a width of 35.44 m consisting of 761 floaters with dimensions: 1260 mm × 400 mm × 215 mm and 336 solar modules with a capacity of 300 Wp. There are three mooring configurations designed and analyzed. In the first mooring configuration , the moorings are installed directly from the structure to the anchors. In the second mooring configuration, several moorings which connected to the structure are met at one point and connected by another mooring rope towards the anchor. The third configuration is the second configuration with buoys installed. Dynamic analysis was performed using the floating structure design and analysis software Orcaflex. Based on the output of the modeling, it is found that all three meet the design criteria for maximum tension and roll motion. The three configurations also meet the design criteria for maximum offset for water depth of 20 meters but the criteria are not met when the water depth is recedes to 18 meters. text
institution Institut Teknologi Bandung
building Institut Teknologi Bandung Library
continent Asia
country Indonesia
Indonesia
content_provider Institut Teknologi Bandung
collection Digital ITB
language Indonesia
topic Teknik (Rekayasa, enjinering dan kegiatan berkaitan)
spellingShingle Teknik (Rekayasa, enjinering dan kegiatan berkaitan)
Kristian P S, Pandu
PRELIMINARY DESIGN OF A MOORING SYSTEM FOR 1 MWP FLOATING PHOTOVOLTAIC IN JATIGEDE RESERVOIR, WEST JAVA
description The Government of Indonesia targets to achieve a share of 23% of the renewable energy mix by 2025 and 31% by 2050. National Energy General Plan (RUEN) states that solar power is one of the potential renewable energy sources in Indonesia, around 207,898 MW. However, the construction of Solar Photovoltaic is not easy, especially related to land availability. One of the solutions is to put solar panels on top of a body of water or known as Floating Photovoltaic (FPV). In this Final Project, a 1 MWp FPV is designed in Jatigede Reservoir, West Java specifically for the mooring system. The 1 MWp Floating PLTS consists of 10 separate floating structures each with a capacity of around 100 kWp. The layout of 1 structure has a length of 36.54 m and a width of 35.44 m consisting of 761 floaters with dimensions: 1260 mm × 400 mm × 215 mm and 336 solar modules with a capacity of 300 Wp. There are three mooring configurations designed and analyzed. In the first mooring configuration , the moorings are installed directly from the structure to the anchors. In the second mooring configuration, several moorings which connected to the structure are met at one point and connected by another mooring rope towards the anchor. The third configuration is the second configuration with buoys installed. Dynamic analysis was performed using the floating structure design and analysis software Orcaflex. Based on the output of the modeling, it is found that all three meet the design criteria for maximum tension and roll motion. The three configurations also meet the design criteria for maximum offset for water depth of 20 meters but the criteria are not met when the water depth is recedes to 18 meters.
format Final Project
author Kristian P S, Pandu
author_facet Kristian P S, Pandu
author_sort Kristian P S, Pandu
title PRELIMINARY DESIGN OF A MOORING SYSTEM FOR 1 MWP FLOATING PHOTOVOLTAIC IN JATIGEDE RESERVOIR, WEST JAVA
title_short PRELIMINARY DESIGN OF A MOORING SYSTEM FOR 1 MWP FLOATING PHOTOVOLTAIC IN JATIGEDE RESERVOIR, WEST JAVA
title_full PRELIMINARY DESIGN OF A MOORING SYSTEM FOR 1 MWP FLOATING PHOTOVOLTAIC IN JATIGEDE RESERVOIR, WEST JAVA
title_fullStr PRELIMINARY DESIGN OF A MOORING SYSTEM FOR 1 MWP FLOATING PHOTOVOLTAIC IN JATIGEDE RESERVOIR, WEST JAVA
title_full_unstemmed PRELIMINARY DESIGN OF A MOORING SYSTEM FOR 1 MWP FLOATING PHOTOVOLTAIC IN JATIGEDE RESERVOIR, WEST JAVA
title_sort preliminary design of a mooring system for 1 mwp floating photovoltaic in jatigede reservoir, west java
url https://digilib.itb.ac.id/gdl/view/61827
_version_ 1822003940522196992

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