Mahesawijaya, I Putu Gde Ariecandra (2023) Studi Modifikasi Breakwater Sebagai Penanganan Sedimentasi Di Pelabuhan Laut Sanur Menggunakan Software Delft3D. Other thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Pada tahun 2022, setelah penyelesaian pembangunan Pelabuhan Laut Sanur di pesisir Pantai Matahari Terbit, Sanur, Provinsi Bali, Terjadi adanya sedimentasi yang ada di dalam kolam labuh pelabuhan. Sedimentasi ini terjadi dikeranakan adanya pergerakan sedimen dari utara dan selatan breakwater yang terbawa oleh arus dan gelombang laut disana. Dalam penelitian ini dilakukan pemodelan untuk mengetahui berapa volume dan laju sedimentasi yang terjadi pada kolam labuh Pelabuhan Laut Sanur dan memberikan solusi dengan alternatif layout breakwater untuk mengurangi adanya penumpukan volume dan sedimen yang masuk ke kolam labuh. Pada kondisi breakwater eksisting, didapatkan hasil sedimentasi pada area kolam labuh sebesar 19,935 m³ dengan laju sedimentasi sebesar 0.256 m/tahun, sedangkan pada alur pelayaran volume sedimentasi yang didapatkan yaitu 13,170 m³ dengan laju sedimentasi sebesar 0.89 m/tahun. Dengan diketahuinya besaran volume dan laju sedimetasi yang terjadi pada kondisi eksisting dilanjutkan dengan permodelan layout alternatif. Dalam pemodelan layout alternatif ini, terjadi perubahan arah arus pada mulut pelabuhan. Hal ini menyebabkan adanya perubahan morfologi pada bagian mulut pelabuhan. Dari hasil pemodelan tersebut didapatkan hasil pengurangan sedimentasi terbesar pada layout 3 yaitu sebesar 11,507 m³ dan 0.13 m/tahun pada area kolam labuh dan pengurangan volume dan laju sedimentasi sebesar 12,571 m³ dan 0.85 m/tahun. Menggunakan alat pengerukan tipe pompa seri NHS10150HP didapatkan lama dari pengerjaan pengerukan pada layout 3 di area alur pelayaran selama 20.95 hari kerja.
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In 2022, after the completion of the construction of Sanur Sea Port on the coast of Matahari Terbit Beach, Sanur, Bali Province, sedimentation occurred in the port's harbor basin. This sedimentation was caused by the movement of sediment from the north and south of the breakwater, carried by currents and waves in that area. This study aimed to model and determine the volume and rate of sedimentation in the harbor basin of Sanur Sea Port, as well as provide alternative breakwater layout solutions to reduce the accumulation of sediment in the harbor basin. Under the existing breakwater conditions, the study found that the sedimentation volume in the harbor basin area was 19,935 m³, with a sedimentation rate of 0.256 m/year, while in the shipping channel, the sedimentation volume was 13,170 m³, with a sedimentation rate of 0.89 m/year. With the knowledge of the sedimentation volume and rate under the existing conditions, alternative layout modeling was conducted. In the alternative layout modeling, there was a change in the direction of currents at the port's entrance, resulting in morphological changes in the mouth of the harbor. The modeling results showed the greatest reduction in sedimentation in layout 3, with a reduction of 11,507 m³ and 0.13 m/year in the harbor basin area, and a reduction of 12,571 m³ and 0.85 m/year in volume and sedimentation rate, respectively. Using a dredging tool of NHS10150HP pump type, the estimated duration for dredging in layout 3 in the shipping channel area was 20.95 working days.
| Item Type: | Thesis (Other) |
|---|---|
| Additional Information: | RSKe 627.24 Mah s-1 2023 |
| Uncontrolled Keywords: | Sedimentasi, Breakwater, Pola Arus, Sedimentation, Breakwater, Delft3D, Current Pattern |
| Subjects: | T Technology > TC Hydraulic engineering. Ocean engineering > TC175.2 Sediment transport T Technology > TC Hydraulic engineering. Ocean engineering > TC203.5 Coastal engineering T Technology > TC Hydraulic engineering. Ocean engineering > TC333 Breakwaters |
| Divisions: | Faculty of Marine Technology (MARTECH) > Ocean Engineering > 38201-(S1) Undergraduate Thesis |
| Depositing User: | I Putu Gde Ariecandra Mahesawijaya |
| Date Deposited: | 18 Jul 2023 08:37 |
| Last Modified: | 23 Apr 2024 04:54 |
| URI: | http://repository.its.ac.id/id/eprint/98573 |
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