Main Article Content

Abstract

Implementation of Fish-finder and Fish dryer for Fishermen in Malabero Teluk Segara Bengkulu City aims to apply appropriate technology. After all, this activity is expected to increase the efficiency and quality of dried fish as well as more catch and decreasing operational cost. Community service activity is implemented by training method. Through this activity we have produced the product of fish dryers and guidance of fish-finder use to determine fish position. Fish dryers amounted to 2 pieces of iron with each dimension of the same height 1.5 m long 1.8 m and width of 0.8 m. One tool has 3 (three) drying racks with a total wide of 3.84 m2 with a tool capacity of approximately 20 kg of wet fish. The maximum temperature in the dryer room reaches 60°C, and the time taken to dry the wet fish at a maximum temperature is about 8 hours.

 

Keywords: fish-finder, fish dryer, efficiency, quality

 

Article Details

Author Biography

irkhos irkhos irkhod, FMIPA UNIB

Fisika FMIPA Universitas Bengkulu
How to Cite
irkhod, irkhos irkhos, Ginting, M., & Sugianto, N. (2018). PENERAPAN FISHFINDER DAN PENGERING IKAN BAGI NELAYAN TANGKAP DI KELURAHAN MALABERO TELUK SEGARA KOTA BENGKULU. Dharma Raflesia : Jurnal Ilmiah Pengembangan Dan Penerapan IPTEKS, 16(1), 11–18. https://doi.org/10.33369/dr.v16i1.4814

References

  1. Bank Indonesia, 2013, Pola Pembiayaan Umkm Usaha Pengolahan Ikan Kering Kota Bengkulu, Kantor Perwakilan Bank Indonesia Provinsi Bengkulu: Bengkulu.
  2. Ismail, J.M, 2010, Identifikasi Material Dasar Perairan Menggunakan Perangkat Fishfinder Berdasarkan Nilai Target Strength, Skripsi Teknik Elektro, Universitas Indonesia: Depok.
  3. Septiadi, D, Nanlohy P, Francis Y, dan Rumlawang, 2009, Proyeksi Potensi Energi Surya Sebagai Energi Terbarukan (Studi Wilayah Ambon Dan Sekitarnya), Jurnal Meteorologi Dan Geofisika, 10(1).
  4. Setyoko, B, Darmanto S, dan Rahmat, 2012, Peningkatan Kualitas Pengeringan Ikan Dengan Sistem Pray Drying, Prosiding SNST.
  5. Suci, Putri Asriani, 2007, Kajian Sistem Agribisnis Perikanan Tangkap di Provinsi Bengkulu, Tugas Kuliah Ts Manajemen Agribisnis Program S3 Ekonomi Pertanian FP Universitas Gadjah Mada: Yogyakarta.
  6. Youce, M. Bintang dkk., 2013, Konstruksi dan Kapasitas Alat Pengering Ikan Tenaga Surya Sistem Bongkar Pasang, Jurnal Media Teknologi Hasil Perikanan, 1(2).
  7. Yuliananda, Gede Sarya, dan Ra. Retno Hastijanti, 2015, Pengaruh Perubahan Intensitas Matahari Terhadap Daya Keluaran Panel Surya, Jurnal Pengabdian Lppm Untag, 1(2).
  8. Zainul, H, dan Erika R, 2012, Rancang Bangun Konversi Energi Surya Menjadi Energi Listrik dengan Model Elevated Solar Tower, Jurnal Neutrino, 4(2).