Modelling of hydrodynamic circulation in Benoa Bay, Bali

Nining Sari Ningsih; Al Azhar Muchamad

doi:10.1007/s00773-012-0195-9

Modelling of hydrodynamic circulation in Benoa Bay, Bali

Nining Sari Ningsih, Al Azhar Muchamad

Geologi

2 Citationer (Scopus)

Abstract

A simulation of water level, velocity, salinity, and temperature in the Bay of Benoa has been carried out using a three-dimensional hydrodynamic Estuarine and Coastal Ocean Model incorporating a main characteristic of southward transport of the Indonesian throughflow at the offshore area of the bay. In other respects, two types of boundary conditions have been tested: (1) specifying elevation at all boundaries; and (2) implementing a combination of elevation and velocity at the boundaries. Performance of the model results has been quantified in terms of mean absolute errors, root-mean square errors, and correlation coefficients based on the availability of water level and current data. The general agreement between simulated and observed values of water elevation and currents is encouraging. Errors in computed water levels are less than 5 % of the local tidal range, and correlations between the data and model exceed 0.95. Meanwhile, errors and correlations for simulated currents are less than 22 % and are about 0.75, respectively.

Originalsprog	Engelsk
Tidsskrift	Journal of Marine Science and Technology
Vol/bind	18
Udgave nummer	2
Sider (fra-til)	203-212
Antal sider	10
ISSN	0948-4280
DOI	https://doi.org/10.1007/s00773-012-0195-9
Status	Udgivet - jun. 2013

Emneord

A three-dimensional hydrodynamic model
ECOM
Benoa Bay
Correlation coefficient
Root-mean square error

Adgang til dokumentet

10.1007/s00773-012-0195-9

Citationsformater

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AU - Ningsih, Nining Sari

AU - Muchamad, Al Azhar

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N2 - A simulation of water level, velocity, salinity, and temperature in the Bay of Benoa has been carried out using a three-dimensional hydrodynamic Estuarine and Coastal Ocean Model incorporating a main characteristic of southward transport of the Indonesian throughflow at the offshore area of the bay. In other respects, two types of boundary conditions have been tested: (1) specifying elevation at all boundaries; and (2) implementing a combination of elevation and velocity at the boundaries. Performance of the model results has been quantified in terms of mean absolute errors, root-mean square errors, and correlation coefficients based on the availability of water level and current data. The general agreement between simulated and observed values of water elevation and currents is encouraging. Errors in computed water levels are less than 5 % of the local tidal range, and correlations between the data and model exceed 0.95. Meanwhile, errors and correlations for simulated currents are less than 22 % and are about 0.75, respectively.

AB - A simulation of water level, velocity, salinity, and temperature in the Bay of Benoa has been carried out using a three-dimensional hydrodynamic Estuarine and Coastal Ocean Model incorporating a main characteristic of southward transport of the Indonesian throughflow at the offshore area of the bay. In other respects, two types of boundary conditions have been tested: (1) specifying elevation at all boundaries; and (2) implementing a combination of elevation and velocity at the boundaries. Performance of the model results has been quantified in terms of mean absolute errors, root-mean square errors, and correlation coefficients based on the availability of water level and current data. The general agreement between simulated and observed values of water elevation and currents is encouraging. Errors in computed water levels are less than 5 % of the local tidal range, and correlations between the data and model exceed 0.95. Meanwhile, errors and correlations for simulated currents are less than 22 % and are about 0.75, respectively.

KW - A three-dimensional hydrodynamic model

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KW - Benoa Bay

KW - Correlation coefficient

KW - Root-mean square error

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DO - 10.1007/s00773-012-0195-9

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