Environmental impact of mud volcano inputs on the anthropogenically altered Porong River and Madura Strait coastal waters, Java, Indonesia. Jennerjahn, T.C, Ingo Jänena, I, Claudia Proppa, C, Seno Adib, S, Sutopo Purwo Nugroho, S.P. Analisis Ekonomi dan Kebijakan Pengembangan Energi Arus Laut di Selat Madura, Provinsi Jawa Timur.
DHI Water and Environment.įirdaus, A.M., T. MIKE 21 Flow Model: Hydrodynamic Module User Guide. College of Engineering and Physical Sciences. Finally we estimate the possible produced power produced from the kinetic energy of the predicted tidal current of hydrodynamic.īrowne, J., K. We also discuss the characteristics of the simulated tidal current comparing with the ADCP results. The results show that the simulated currents has similar pattern with the measured data. The obtained data is then compared with the numerical model. We deployed ADCP and measured the current speed for 15 days. Next, we validate the model by conducting the field measurement of the speed of tidal current between pile no. MIKE-21 program is then employed to simulate the tidal current that passes between the piles of the bridge. A nested hydrodynamic model has been developed to refine the specific area of interest around the piles of the Suramadu Bridge. The bottom topography of Madura Strait is digitized from bathymetry map produced by Indonesian Navy. Second, we develop the numerical model of Madura Strait. In this paper, the pattern of tidal current in Madura Strait was analyzed and it is used as First we present the general information of the structure of Suramadu Bridge and explain the purpose of installing tidal current turbine between its piers. Recently, the interest in renewable ocean energy has been growing rapidly among the ocean researchers in Indonesia.