Analisis Kinerja Redaman Gelombang pada Breakwater Tenggelam Tipe Berlubang Dengan Pemodelan Fisik 2D

Authors

  • Ivana Aprili Andika
  • Subuh Tugiono
  • Ahmad Zakaria
  • Endro P. Wahono

DOI:

https://doi.org/10.23960/jrsdd.v9i1.1722

Abstract Views: 183 File Views: 392 File Views: 0

Abstract

Loss of land due to coastal erosion that occurs naturally by wave abrasion. Therefore, to protect the coast from erosion or other matters, a breakwater is needed which destroys the energy of the waves before reaching the shore. This is the background of the author in taking the title of the thesis about the Performance Analysis of Wave Attenuation in the Hollow Type Breakwater Submerged Type 2-D Physical Modeling. The variables used in this study were incident wave height (Ho), calm water level (ds), and breakwater type. The results of this study indicate that the damping coefficient (Cr) was obtained using a sinking breakwater without a hole with a calm water level (ds) of 2 cm of 0.479 which is the most effective damping produced in an experiment using a breakwater that is free from calm water surface (ds). 2 cm. The wave attenuation obtained from the wave defraction test using 2 types of breakwaters resulted that the breakwater without the damping hole was greater than using a perforated breakwater.

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References

Fauzan. 2013. Evaluasi desain bangunan penahan gelombang pengaman pantai di desa margasari.

Santi, Devira. 2009. Kajian model fisik difraksi gelombang 2-D dengan menggunakan 2 breakwater tenggelam yang dipasang seri, Skripsi Sarjana, Fakultas Teknik Universitas Lampung.

Mamoto, J, D., Jasin, M, I., d a n Tawas, H, J. 2013. Perencanaan Jetty di Muara Sungai Ranoyapo Amorang, Jurnal Sipil Statik, 1(6).

Triatmodjo, B. 1999. Perencanaan Bangunan Pantai, Beta offset. Yogyakarta

Triatmodjo, B. 2003. Perencanaan Bangunan Pantai, Beta offset. Yogyakarta

Triatmodjo, B. 2010. Perencanaan Bangunan Pantai, Beta Offset, Yogyakarta.

Hidayat, N. 2006. Konstruksi Bangunan Laut dan Pantai sebagai Alternatif Perlindungan Daerah Pantai, Jurnal SMARTek, 4(1).

Sulaiman, D.M., Ernawan, M., Suprapto, dan Azhar, R.M., 2012. Rehabilitasi Pantai Dengan Pegar Geotube, Studi Kasus Pantai Tanjung Kait Tangerang Banten, Kolokium Hasil Penelitian dan Pengembangan Sumber Daya Air, Puslitbang SDA, Bandung.

Pilarczyk, K.W., 2003, Design of Low Crested (Submerged) Structures – An Overview, The 6th International Conference on Coastaland Port Engineering in Developing Countries, Colombo, Srilanka.

Kalay, D. E., & Marasabessy, M., 2015. Dinamika Gelombang Perairan Maluku Pada Musim Timur, Amanisal, PSP FPIK Unpatti – Ambon, 4(1), 17-23.

Mulyadi, Jumarang, M. I., & Apriansyah, 2015. Studi Variabilitas Tinggi dan Periode Gelombang Laut Signifikan. POSITRON, 5(1), 19 - 25.

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Published

2021-11-12

How to Cite

Andika, I. A., Tugiono, S., Zakaria, A., & Wahono, E. P. (2021). Analisis Kinerja Redaman Gelombang pada Breakwater Tenggelam Tipe Berlubang Dengan Pemodelan Fisik 2D. Jurnal Rekayasa Sipil Dan Desain, 9(1), Hal. 189 – 200. https://doi.org/10.23960/jrsdd.v9i1.1722

Issue

Vol. 9 No. 1 (2021): Edisi Maret 2021

Section

Makalah Ilmiah Edisi Maret 2021

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