Abstract
Depth-averaged Tidal Flow Simulation by Stabilized Finite Element Formulation in the Ocean Surrounding Indonesia
Highlights
In Indonesia, marine culture and capture fisheries have been growing and creating new employment opportunities in fishery-related industries
In the first half of this paper, we have addressed the methodologies used to simulate 2D depth-averaged tidal flows by a stabilized finite element formulation
We have proposed new techniques to specify appropriate boundary conditions on curved coastlines and open boundaries
Summary
In Indonesia, marine culture and capture fisheries have been growing and creating new employment opportunities in fishery-related industries. The country still has a problem with unstable productivity, because there are many environmental problems, such as the rising sea level, the drastic change in weather, and land-based marine pollution. It is imperative to find sustainable uses of marine resources in Indonesia. Maintaining Indonesiaโs marine resources will be the first step towards stable income for fishers, and for those engaged in all fishery-related industries. The necessity of this has been seen elsewhere in local communities all over Indonesia. It becomes increasingly practical to monitor environment factors digitally.
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