Rancang Bangun Alat Pengasapan Ikan dengan Metode Pengasapan Panas (Hot Smoking) dan Pengasapan Dingin (Cold Smoking)

Authors

  • Emai Rizkita Br Karo Universitas Musamus
  • Indah Widanarti Universitas Musamus
  • Yosefina Mangera Universitas Musamus

DOI:

https://doi.org/10.23960/jtep-l.v10i4.504-514

Abstract

The purpose of this study was to produce a fish smoking device for hot smoking and cold smoking methods. This study used 3 types of fish, namely paha fish (Leptobrama sp.), stingray (Dasyatis sp.), and tilapia fish (Oreochromis mossambicus), and the fuel used as fuel for smoking is coconut shell. The data measured included smoking room temperature data, fish weight before and after smoking. The data obtained were analyzed descriptively. The results showed that smoking fish using hot smoking and cold smoking methods with specifications, length 50 cm, width 50 cm, overall height 83 cm. This tool consists of three main components, namely, a fumigation chamber which is combined with a hot smoking biomass combustion chamber, a cold smoking biomass combustion chamber and a connecting pipe. The performance test of the tool was carried out by calculating the weight loss of fish during hot smoking and cold smoking. The smoking time used for hot smoking is 2 hours (temperature 50 − 75) and cold smoking 4 hours (30 − 45 ). The results showed that the highest percentage of weight loss during hot smoking occurred in stingrays on the second shelf, which was 29.25%, while the highest percentage of weight loss during cold smoking occurred in stingrays on the first shelf, which was 23.79%. The weight loss of fish in both hot and cold smoking is strongly influenced by the smoking time, the distance between the smoking rack and the heat source and the type of fish.

 

Keywords : cold, heat, shrinkage, smoking, weight

Author Biography

  • Yosefina Mangera, Universitas Musamus
    JURUSAN TEKNIK PERTANIAN

References

Bimantara, F., Supriadi, A., dan Hanggita, S. 2015. Modifikasi dan Pengujian Alat Pengasapan Ikan Sistem Kabinet. FishtecH – Jurnal Teknologi Hasil Perikanan, 4(1): 46-56.

Dinas Kelautan dan Perikanan. 2010. Laporan Tahunan Pemerintah Kabupaten Merauke.

Fiatno, A., dan Kusuma, Y.Y. 2020. Rancang Bangun Alat Pengasapan Ikan Model Oven Kapasitas 1kg/jam dengan Sirkulasi Asap Tersebar Merata. Jurnal ROTOR, 13(2): 38-42.

Patabang, D. 2009. Analisis Kebutuhan Udara Pembakaran Untuk Membakar Berbagai Jenis Batubara. Jurnal SMARTek, 7(4): 279-282.

Royani, D.S., Marasabessy, I., Santoso, J., dan Nurimala, M. 2015. Rekayasa Alat Pengasapan Ikan Tipe Kabinet (Model Oven). Jurnal Aplikasi Teknologi Pangan, 4(2): 74-78.

Sakti, H., Lestari, S., dan Supriadi, A. 2016. Perubahan Mutu Ikan Gabus (Channa striata) Asap Selama Penyimpanan. FishtecH – Jurnal Teknologi Hasil Perikanan, 5(1): 11-18.

Sirait, J., dan Saputra, S.H. 2020. Teknologi Alat Pengasapan Ikan dan Mutu Ikan Asap. Jurnal Riset Teknologi Industri, 14(2): 220-229.

Sulfiani, S., Sukainah, A., dan Mustarin, A. 2021. Pengaruh Lama Dan Suhu Pengasapan Dengan Menggunakan Metode Pengasapan Panas Terhadap Mutu Ikan Lele Asap. Jurnal Pendidikan Teknologi Pertanian, 3: 93-101.

Sulistijowati, R., Otong, S., Djunaedi, S., Nurhajati, J., Afrianto, E., dan Udin, Z. 2011. Mekanisme Pengasapan Ikan. Unpad Press, Bandung: 149 halaman.

Taib, G. 1987. Operasi Pengeringan Pada Pengolahan Hasil Pertanian. Medyatama Sarana Perkasa, Jakarta.

Triwibowo, B. 2014. Teori Dasar Simulasi Proses Pembakaran Limbah Vinasse dari Industri Alkohol Berbasis CFD. Jurnal Bahan Alam Terbarukan, 2(2): 14-24.

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Published

2021-12-30

Issue

Vol. 10 No. 4 (2021): Desember

Section

Articles

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