DEVELOPMENT OF SOLAR-POWERED FISHING BOATS WITH LEAK THREAT SENSOR SYSTEM: A SUSTAINABLE SOLUTION FOR INDONESIAN FISHERMEN

Imam Muzaki, Mirza Mahbub Wijaya, Fathan Mubina Dewadi, Naswa Bayu Tsabitha, Adam Cahya Soeprapto, Fauzan Hakim

Abstrak


The use of ships as transportation vessels has a relatively low accident rate due to the incorporation of prevention and mitigation facilities in ship construction. However, with the increasing demand and variety of ships, the need for electrical energy on board fluctuates significantly. Utilizing ship power generators can harness solar energy as an alternative source of electrical energy. Indonesia's solar energy potential is approximately 4.8 kWh/m2, covering regions across the country. Therefore, the research team aims to develop the KISAT SAKSI (Bright Solar Fishing Boat, Leak Threat Sensor System) energy. Solar energy is abundant near the equator and available throughout the year, except during rainy seasons. Solar energy can be used as an alternative to traditional, increasingly limited, and expensive energy sources. The data contained in this document are derived from publications, manufacturers, relevant government agencies, scientific literature, and other sources. Solar energy utilization as electrical energy can be achieved by installing solar panels on ships. The generated electrical energy can power ship propellers, electrical equipment, be used for ship lighting at night, or serve as a leak detection tool for fishing boats. The utilization of solar power systems can also have positive impacts on fishermen, including enhancing health, economics, environmental sustainability, and fostering independent fishermen.

Kata Kunci


solar panels; renewable energy; fishing boats; environmental sustainability

Teks Lengkap:

PDF (English)

Referensi


A. Satriady, W. A. A. H. and S. H. (2016). “Pengaruh Luas Elektroda Terhadap Karakteristik Baterai LiFePO4,” Jurnal Material dan Energi Indonesia, Vols. Vol. 06, No. 02, 2016. .

Aditya Nugraha. (2020). Study on the Use of Solar Power Plants as Energy Sources on Fishing Boats in East Nusa Tengara.

D. Linden and T. B. Reddy. (2002). D. Linden and T. B. Reddy, Handbook of Batteries, 3rd Edition ed., The McGraw-Hills Companies, Inc., 2002. .

Dafi Dzulfikar. (2016). “Optimalisasi Pemanfaatan Energi Listrik Tenaga Surya Skala Rumah Tangga. Seminar Nasional Fisika (E-Journal).

Kartini, E. (2013). Pengetahuan Kapal Laut dan Muatannya. Yogyakarta: Deepubish.

Kertoraharjo, R. S. P. (2013). Kapal Perikanan (Fishing Vessel). PT. Gramedia.

Ketut Daging. (2019). Rancang Bangun Pembangkit Listrik Tenaga Surya Sebagai Sumber Listrik Untuk Kapal Perikanan Skala Kecil Di Kabupaten Pangkep, Sulawesi Selatan.

Kumara, N. S. (2010). Pembangkit Listrik Tenaga Surya Skala Rumah Tangga Urban dan Ketersediaannya di Indonesia. Teknologi Elektro, 9.

Misuraca Pamela. (2014). The Effectiveness of a Costs and Benefits Analysis in Making Federal Government Decisions. International Journal of Center for National Security, The MITRE Corporation.

Raja Harahap. (2023). Studi Perencanaan Sistem Pembangkit Listrik Hybrid (Panel Surya dan Diesel Generator) Pada Kapal Nelayan di Pelabuhan Perikanan Samudera (PPS) Belawan.

Reza Akhmad Syahbana. (2012). Uji Coba Pemanfaatan Energi Surya Sebagai Energi Alternatif Sistem Kelistrikan Lampu Navigasi Pada Kapal Ikan.

Sai Manoj Rompicherla. (2013). Solar Energy: The Future. International Journal of Engineering Trends and Technology (IJETT).

Thakur Dharmendra. (2016). A Review on Immersion System to increase the efficiency of Solar Panels. International Journal of Advanced Research.

Wahdani Naufal Hafiz. (2021). Studi Perancangan Kapal Ikan Dengan Pemanfaatan Energi Terbarukan Berbasis Tenaga Angin dan Tenaga Surya Untuk Kepulauan Morotai.




DOI: https://doi.org/10.24198/kumawula.v7i2.54226

Refbacks

  • Saat ini tidak ada refbacks.




Kumawula: Jurnal Pengabdian kepada Masyarakat Terindeks Di:

 Google Scholar   Indonesia One SearchWorldCat Crossref  Bielefeld Academic Search Engine (BASE)