PRAKIRAAN GELOMBANG PERAIRAN INDONESIA MENGGUNAKAN MODEL GENERASI KETIGA (MODEL WAM)

PRAKIRAAN GELOMBANG PERAIRAN INDONESIA MENGGUNAKAN MODEL GENERASI KETIGA (MODEL WAM)

<b>Abstract:</b><p align="justify"> <br /> <br /> <br /> Surface wind data (10 meters) that have been produced by KNMI such as analysis wind data up to 72 hours wind forecast, have been used in this study as primary data for the 3rd generation wave...

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Main Author: Hariadi
Format: Theses
Language:Indonesia
Online Access:https://digilib.itb.ac.id/gdl/view/4915
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:4915
spelling id-itb.:49152006-05-04T10:38:59ZPRAKIRAAN GELOMBANG PERAIRAN INDONESIA MENGGUNAKAN MODEL GENERASI KETIGA (MODEL WAM) Hariadi Indonesia Theses INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/4915 <b>Abstract:</b><p align="justify"> <br /> <br /> <br /> Surface wind data (10 meters) that have been produced by KNMI such as analysis wind data up to 72 hours wind forecast, have been used in this study as primary data for the 3rd generation wave model, WAM in getting the wave parameters. Those are significant wave height, mean period, and wave directions, and also the height, mean period, and direction of the swell that have been occurred in Indonesian and its surrounding waters which stretchs out from I I° N to 15°S and 90°E to 144°E using the grid band of° latitude x % ° longitude.<p align="justify"> <br /> This study was carried out in order to understand the usefulness of the deep-water model for ocean state forecasting within Indonesian region. It was done by studying the model capability in responding the wind input to produce the spreading wave parameters distribution while the ocean condition is influenced by westerlies (analysis wind data of 1-10 February 2000, analysis wind data and forecasting of 5 February 2000) and influenced by easterlies (analysis wind data of 21-29 May 2000, analysis and forecasting wind data 19 May 2000).<p align="justify"> <br /> The results of the model were pictured by the map of wave distributions using Arc View GIS. Furthermore, they had been evaluated qualitatively using Topex/Poseidon satellite data, and later on compared qualitatively to the results of MRI II and NWW III model. Result of evaluation show that the WAM model generally has produced similar wave pattern with satellite data and the results of the other models. The difference in wave height lies in the order that could be tolerated<p align="justify"> <br /> The wave condition calculated by the model in Indonesian waters in February 2000, gave the maximum wave height in South China Sea where ocean condition is influenced by the westerlies. The wave computed height is up to 3 meters with period of 5-6 second and moving to the south.<p align="justify"> <br /> In May 2000, the maximum wave height occurred in Indian Ocean south of Timor Island where the ocean condition is influenced by the easterlies . The wave height is up to 2.5 m with period of 5-6 seconds and moving to the east. 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
description <b>Abstract:</b><p align="justify"> <br /> <br /> <br /> Surface wind data (10 meters) that have been produced by KNMI such as analysis wind data up to 72 hours wind forecast, have been used in this study as primary data for the 3rd generation wave model, WAM in getting the wave parameters. Those are significant wave height, mean period, and wave directions, and also the height, mean period, and direction of the swell that have been occurred in Indonesian and its surrounding waters which stretchs out from I I° N to 15°S and 90°E to 144°E using the grid band of° latitude x % ° longitude.<p align="justify"> <br /> This study was carried out in order to understand the usefulness of the deep-water model for ocean state forecasting within Indonesian region. It was done by studying the model capability in responding the wind input to produce the spreading wave parameters distribution while the ocean condition is influenced by westerlies (analysis wind data of 1-10 February 2000, analysis wind data and forecasting of 5 February 2000) and influenced by easterlies (analysis wind data of 21-29 May 2000, analysis and forecasting wind data 19 May 2000).<p align="justify"> <br /> The results of the model were pictured by the map of wave distributions using Arc View GIS. Furthermore, they had been evaluated qualitatively using Topex/Poseidon satellite data, and later on compared qualitatively to the results of MRI II and NWW III model. Result of evaluation show that the WAM model generally has produced similar wave pattern with satellite data and the results of the other models. The difference in wave height lies in the order that could be tolerated<p align="justify"> <br /> The wave condition calculated by the model in Indonesian waters in February 2000, gave the maximum wave height in South China Sea where ocean condition is influenced by the westerlies. The wave computed height is up to 3 meters with period of 5-6 second and moving to the south.<p align="justify"> <br /> In May 2000, the maximum wave height occurred in Indian Ocean south of Timor Island where the ocean condition is influenced by the easterlies . The wave height is up to 2.5 m with period of 5-6 seconds and moving to the east.
format Theses
author Hariadi
spellingShingle Hariadi
PRAKIRAAN GELOMBANG PERAIRAN INDONESIA MENGGUNAKAN MODEL GENERASI KETIGA (MODEL WAM)
author_facet Hariadi
author_sort Hariadi
title PRAKIRAAN GELOMBANG PERAIRAN INDONESIA MENGGUNAKAN MODEL GENERASI KETIGA (MODEL WAM)
title_short PRAKIRAAN GELOMBANG PERAIRAN INDONESIA MENGGUNAKAN MODEL GENERASI KETIGA (MODEL WAM)
title_full PRAKIRAAN GELOMBANG PERAIRAN INDONESIA MENGGUNAKAN MODEL GENERASI KETIGA (MODEL WAM)
title_fullStr PRAKIRAAN GELOMBANG PERAIRAN INDONESIA MENGGUNAKAN MODEL GENERASI KETIGA (MODEL WAM)
title_full_unstemmed PRAKIRAAN GELOMBANG PERAIRAN INDONESIA MENGGUNAKAN MODEL GENERASI KETIGA (MODEL WAM)
title_sort prakiraan gelombang perairan indonesia menggunakan model generasi ketiga (model wam)
url https://digilib.itb.ac.id/gdl/view/4915
_version_ 1820663533772210176

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