PEMETAAN POTENSI ENERGI GELOMBANG LAUT DI PERAIRAN INDONESIA MENGGUNAKAN METODE PEMODELAN NUMERIK SWAN

PEMETAAN POTENSI ENERGI GELOMBANG LAUT DI PERAIRAN INDONESIA MENGGUNAKAN METODE PEMODELAN NUMERIK SWAN

The demand for electricity in Indonesia increased by approximately 4.6% annually. This study aims to map the potential of wave energy, using a wave spectral numerical modeling method, which can be used to identify differences in characteristics of waves in Indonesian waters. To build such a numerica...

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Main Author: Mu'aqil Uham, Muhammad
Format: Final Project
Language:Indonesia
Subjects:
Penyajian grafis permukaan bumi dan luar bumi
Online Access:https://digilib.itb.ac.id/gdl/view/32190
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:32190
spelling id-itb.:321902018-12-04T15:40:19ZPEMETAAN POTENSI ENERGI GELOMBANG LAUT DI PERAIRAN INDONESIA MENGGUNAKAN METODE PEMODELAN NUMERIK SWAN Mu'aqil Uham, Muhammad Penyajian grafis permukaan bumi dan luar bumi Indonesia Final Project Wave Energy, Fetch, Potency, Characteristics INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/32190 The demand for electricity in Indonesia increased by approximately 4.6% annually. This study aims to map the potential of wave energy, using a wave spectral numerical modeling method, which can be used to identify differences in characteristics of waves in Indonesian waters. To build such a numerical model, bathymetric and wind data in the area of research are required as input to the SWAN (Simulating Waves Nearshore) for calculating wave in several different conditions. The size of wave in its growing regions depends on wind speed, duration or length the wind blows, and wave travelling time since its early growth (fetch). Indonesia, which is crossed by the equator, significantly affects the length of fetch. In addition, the presence of islands along Indonesian waters also affect the fetch formed. Potential mapping is done by taking 10 point samples to quantify the value of the power generated, which is amounted about 49,705.730 W or 435,422,193.100 kWh (8760 hours) a year. Potential mapping also done by quantifying the overall value in the mapping area. Indonesian waters at least have theoretical potential power of ocean waves about 709,721,526.509 W. Then, classification of area that could potentially have large wave energy is done by dividing the power value into five classes (very potential, potential, quite potential, less potential, and no potential). Areas with the highest potential are in the area of the Strait of Karimata directly adjacent to the South China Sea (the Natuna waters), the south coast of Java, Bali, Lombok, Flores that directly adjacent to the Indian Ocean, the west coast of Sumatra, and Arafuru Sea waters. 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 Penyajian grafis permukaan bumi dan luar bumi
spellingShingle Penyajian grafis permukaan bumi dan luar bumi
Mu'aqil Uham, Muhammad
PEMETAAN POTENSI ENERGI GELOMBANG LAUT DI PERAIRAN INDONESIA MENGGUNAKAN METODE PEMODELAN NUMERIK SWAN
description The demand for electricity in Indonesia increased by approximately 4.6% annually. This study aims to map the potential of wave energy, using a wave spectral numerical modeling method, which can be used to identify differences in characteristics of waves in Indonesian waters. To build such a numerical model, bathymetric and wind data in the area of research are required as input to the SWAN (Simulating Waves Nearshore) for calculating wave in several different conditions. The size of wave in its growing regions depends on wind speed, duration or length the wind blows, and wave travelling time since its early growth (fetch). Indonesia, which is crossed by the equator, significantly affects the length of fetch. In addition, the presence of islands along Indonesian waters also affect the fetch formed. Potential mapping is done by taking 10 point samples to quantify the value of the power generated, which is amounted about 49,705.730 W or 435,422,193.100 kWh (8760 hours) a year. Potential mapping also done by quantifying the overall value in the mapping area. Indonesian waters at least have theoretical potential power of ocean waves about 709,721,526.509 W. Then, classification of area that could potentially have large wave energy is done by dividing the power value into five classes (very potential, potential, quite potential, less potential, and no potential). Areas with the highest potential are in the area of the Strait of Karimata directly adjacent to the South China Sea (the Natuna waters), the south coast of Java, Bali, Lombok, Flores that directly adjacent to the Indian Ocean, the west coast of Sumatra, and Arafuru Sea waters.
format Final Project
author Mu'aqil Uham, Muhammad
author_facet Mu'aqil Uham, Muhammad
author_sort Mu'aqil Uham, Muhammad
title PEMETAAN POTENSI ENERGI GELOMBANG LAUT DI PERAIRAN INDONESIA MENGGUNAKAN METODE PEMODELAN NUMERIK SWAN
title_short PEMETAAN POTENSI ENERGI GELOMBANG LAUT DI PERAIRAN INDONESIA MENGGUNAKAN METODE PEMODELAN NUMERIK SWAN
title_full PEMETAAN POTENSI ENERGI GELOMBANG LAUT DI PERAIRAN INDONESIA MENGGUNAKAN METODE PEMODELAN NUMERIK SWAN
title_fullStr PEMETAAN POTENSI ENERGI GELOMBANG LAUT DI PERAIRAN INDONESIA MENGGUNAKAN METODE PEMODELAN NUMERIK SWAN
title_full_unstemmed PEMETAAN POTENSI ENERGI GELOMBANG LAUT DI PERAIRAN INDONESIA MENGGUNAKAN METODE PEMODELAN NUMERIK SWAN
title_sort pemetaan potensi energi gelombang laut di perairan indonesia menggunakan metode pemodelan numerik swan
url https://digilib.itb.ac.id/gdl/view/32190
_version_ 1821996311318102016

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