Sedimentation Study on the Barru Power Plant Intake Canal
Main Article Content
Abstract
Increasing the cooling capacity of generator engines or condenser engines by utilizing sea water at PLTU Barru requires dredging the intake channel with a dredging length of ±80 m and a depth of -4m LWS. The problem is that dredging the intake canal has the potential to cause silting back in the area that has been dredged due to coastal hydrodynamic processes which can cause blockage of the intake canal and disrupt the process of the pumping system and the generating system as a whole. A study is needed to assess the potential for sedimentation around the dredging area. This research uses primary data and secondary data. The primary data consists of bathymetry data, currents, tides and bottom sediments and water samples. While the secondary data includes comparative wave and tidal data as well as the design of the dredging plan. Wave data is sourced from the European Center for Medium-Range Weather Forecasts (ECMWF) while comparative tide data is obtained from the Geospatial Information Agency (BIG). The data obtained is then analyzed to obtain the parameters of currents, tides, sediment and breaking waves as well as sediment transport along the coast. Calculation of sediment flows and transport was also carried out by numerical modelling using a surface-water modelling system (SMS). Furthermore, by using the results of analytical sediment transport analysis and numerical modelling, the thickness of the trapped sediment is calculated in the intake canal after dredging. The results of numerical modelling analysis show that the potential for sedimentation at the study site originates from currents due to tides and currents due to breaking waves. The predicted potential for sedimentation due to tidal currents and broken wave currents for 1 year is 43.64 m3 and 1,589.93 m3 respectively with a sediment thickness of 1.2 meters from the bottom of the excavation so that intake channel maintenance is required at least once a year.
Downloads
Article Details
This work is licensed under a Creative Commons Attribution 4.0 International License.
Allow anyone to modify, improve, and make derivative works, even for commercial purposes, as long as they credit to you for the original work.
Deprecated: json_decode(): Passing null to parameter #1 ($json) of type string is deprecated in /home/journal33/public_html/plugins/generic/citations/CitationsPlugin.inc.php on line 49
References
Ashfania, dkk, 2021, Optimisasi Dimensi Kanal Outfall Air Pendingin PLTU Dengan Memperhatikan
Dampak Lingkungan Lingkungan Pada Air Laut, ROTASI, Vol. 23 No. 3. Hal. 16-25.
Herlambang A.R, dkk, 2016, Studi Transpor Sedimen Di Teluk Benoa Menggunakan Pemodelan
Numerik, Jurnal Kelautan Volume 9, No. 2.
Rio Demak Hasibuan, dkk, 2015, Analisis Pasang Surut Dengan Menggunakan Metode Least Square Dan
Penentuan Periode Ulang Pasang Surut Dengan Metode Gumbel Di Perairan Boom Baru Dan Tanjung
Buyut, MASPARI JOURNAL, 7(1): 35-48.
Kampf, J., 2009, Ocean Modelling for Beginners. Springer Heidelberg Dordrecht London New Yor
Chen, C., Beardsley, Cowles, R. C., & Geoffrey, 2006, An Unstructured Grid, Finite Volume Coastal
Ocean Model (FVCOM) User Manual.
Triadmodjo, B., 1999, Teknik Pantai, Beta Offset, Yogyakarta.
CERC, 1984, Shore Protection Manual Volume I and II, US Army Coastal Engineering Research Center
Department of the Army, Washington DCUS. (SPM, 1984).