Analisis Kebutuhan Air Tawar pada Kapal Jenis Landing Platform Dock Pada Satuan Amfibi Koarmada II dengan Sistem Reverse Osmosis
DOI:
https://doi.org/10.59447/malfina.v3i1.193Keywords:
Fresh Water, Reverse Osmosis, LPD Ship, Amphibious Unit of Fleet Command II, DesalinationAbstract
Analyzing the freshwater needs on Landing Platform Dock (LPD) type ships in the Amphibious Unit of Koarmada II, with a focus on the implementation of the Reverse Osmosis (RO) system to supply freshwater at sea. The problem faced is the limited supply of freshwater on ships operating far from external freshwater sources. This study uses a qualitative approach with interviews, observations, and documentation as data collection methods. The results of the study indicate that the RO system can improve the efficiency of freshwater supply, although technical challenges such as maintenance and crew training still need to be addressed. Optimal implementation of the RO system can support the logistical independence of the ship during long-term operations in remote waters. This study is expected to serve as a reference for the development of freshwater supply systems on Indonesian warships.
References
Ariyanti, D., & Widiasa, I. N. (2021). Aplikasi Teknologi Reverse Osmosis Untuk Pemurnian Air Skala Rumah Tangga. Lingkungan, 32(3), 193. https://ejournal.undip.ac.id/index.php/teknik/article/view/1735
Dewantara, B. Y., Sugiarto, E., Yusan, L. Y., & Trisyani, N. (2024). Implementasi Sistem Reverse Osmosis Dengan Sumber Listrik Tenaga Surya Untuk Menyediakan Air Siap Minum Di Pondok Pesantren Al-Karimiyyah Desa Braji, Kabupaten Sumenep. Jurnal Pengabdian Masyarakat Pesisir, 1–6. https://doi.org/10.30649/jpmp.v3i1.98
DieselShip (2020) Marine shipboard reverse osmosis system, DieselShip. Available at: https://dieselship.com/marine-technical-articles/marine-engineering-knowledge-general/marine-shipboard-reverse-osmosis-system/ (Accessed: 11 December 2024).
Dwi wahyudin. (2016). OP Kinerja Fresh Water Maker Reverse Osmosis Untuk Memenuhi Kebutuhan Operasional Sanitary Kapal MV. Nautical Aisya. 1–23.
Intan, P. P. (2020). Analisis Perkiraan Kebutuhan Dan Tarif Air Bersih Untuk Pelabuhan Perikanan Samudera(Pps) Lampulo Kota Banda Aceh. Teras Jurnal : Jurnal Teknik Sipil, 10(2), 255. https://doi.org/10.29103/tj.v10i2.338
PAM Lyonnaise Jaya (PALYJA) Official Website, palyja (2024) Kebutuhan Air Bersih Untuk Berlayar , PAM Lyonnaise Jaya. Available at: https://www.palyja.co.id/id/list-berita-terbaru/perum-perindo-andalkan-jaringan-air-perpipaan-untuk-kebutuhan-air-bersih/ (Accessed: 11 December 2024).
Ragetisvara, A. A., & Titah, H. S. (2021). Studi Kemampuan Desalinasi Air Laut Menggunakan Sistem Sea Water Reverse Osmosis (SWRO) pada Kapal Pesiar. Jurnal Teknik ITS, 10(2). https://doi.org/10.12962/j23373539.v10i2.63933
Riswandi, A. (2024) Menurut Unesco Hak Dasar Manusia Atas Air Yaitu Sebesar 60ltr/org/hari.https://ejournal.upi.edu/index.php/gea/article/download/1699/1150.
Satrio Meidianto Mustiko. (n.d.). Perancangan Sistem Distilasi Air Laut Dengan Memanfaatkan Panas Gas Bauang Mesin Diesel Pada Kapal Penumpang KM. NGGAPULU.
SatuanAmfibi (2024) Satuan Kapal Amfibi, marinir.tnial.mil.id. Available at: https://marinir.tnial.mil.id/detail/operasi-amphibi (Accessed: 11 December 2024).
Suheri, A., Kusmana, C., Purwanto, M. Y. J., & Setiawan, Y. (2019). Model Prediksi Kebutuhan Air Bersih Berdasarkan Jumlah Penduduk di Kawasan Perkotaan Sentul City. Jurnal Teknik Sipil Dan Lingkungan, 4(3), 207–218. https://doi.org/10.29244/jsil.4.3.207-218
Suryadi, Alam, I., & Sc, B. M. (n.d.). Analisa Teknis Ekonomis Perencanaan Sistem Reverse Osmosis Untuk Kebutuhan Air Tawar (Domestic Fresh Water System) Pada Kapal Niaga (MT.Avila).
Syahid, M., Rahman, M., Azis, N., Arief, S., & Fathar, I. (n.d.). Pengolahan Air Minum Sistem Reverse Osmosis di Pesantren Hidayatullah Gowa.
wikipedia (2023) Landing Platform Dock, Wikipedia. Available at: https://id.wikipedia.org/wiki/Landing_Platform_Dock (Accessed: 11 December 2024).








