Analysis of Biogas Production From Fermentation Results of Pineapple Bark Waste as Main Raw Material

Analisa Produksi Biogas Dari Hasil Fermentasi Limbah Kulit Nanas Sebagai Bahan Baku Utama

  • Fatkur Rhohman
  • Hesti Istiqlaliyah
Keywords: Biogas, EM4, cow dung, Pineapple skin waste

Abstract

The need for energy is currently increasing. But, dependence on fossil energy is very high. So, there needs a real effort to develop new and renewable energy sources. One of the sources that can be developed for energy is biogas. Many natural resources can be used as raw material for biogas production, such as pineapple skin waste which is widely available in Kediri. This study aims to analyze the results of biogas production from a combination of pineapple skin, cow dung, EM4, and water. This research uses a qualitative approach. The research method is experimental research. The composition ratio used was 50 kg of pineapple skin, 50 liters of water, 2 kg of cow dung, and 2 liters of EM4. The study time was 30 days. the overall biogas production yield was 0.204 kg. The biggest increase in biogas production occurred on day 17 to day 25. From the results of data processing using numerical methods, the graphical equation of biogas production is described by the equation . y represents the volume of biogas production in grams. x represents the counted days to determine the production process.

References

[1] L. H. Wiwoho, “Akankah Indonesia Terus Bertahan dengan Bahan Bakar Fosil?,” kompas.com, 06 September 2018. [Online]. Available: https://ekonomi.kompas.com/read/2018/09/06/104511326/akankah-indonesia-terus-bertahan-dengan-bahan-bakar-fosil?page=2. [Diakses 21 Februari 2021].
[2] D. Siswanto, “Indonesia Energi Outlook 2019,” ESDM, Jakarta, 2019.
[3] D. Abdurrohman, Biologi Kelompok Pertanian dan Kesehatan untuk Sekolah Menengan Kejuruan Kelas XI, Bandung: Grafindo Media Pratama, 2008.
[4] Dini Trisyanti, “www.cnnindonesia.com,” CNN INDONESIA, 25 04 2018. [Online]. Available: https://www.cnnindonesia.com/gaya-hidup/20180425101643-282-293362/riset-24-persen-sampah-di-indonesia-masih-tak-terkelola.
[5] E. R. Aidha dan Y. Septriani, “STUDI PEROLEHAN BIOGAS DARI SAMPAH ORGANIK DAN ALGA (SARGASSUM SP),” Jurnal Sains dan Teknologi, vol. 17, no. 1, 2017.
[6] E. Ismail, “Republika.co.id,” Republika, 14 Januari 2019. [Online]. Available: https://republika.co.id/berita/ekonomi/pertanian/19/01/14/plb859453-kementan-nanas-madu-dari-gunung-kelud-jadi-primadona.
[7] A. D. Susanti, P. T. Prakoso dan H. Prabawa, “Pembuatan Bioetanol Dari Kulit Nanas Melalui Hidrolisis Dengan Asam,” Jurnal Ekuilibrium, vol. 10, no. 2, pp. 81-86, 2011.
[8] T. R. Ardiningtyas1, “Pengaruh Penggunaan Effective Microorganism 4 (EM4) dan Molase Terhadap Kualitas Kompos Dalam Pengomposan Sampah Organik RSUD DR. R. Soetrasno Rembang,” Universitas Negeri Semarang, Semarang, 2013.
[9] S. Maryani, “Potensi Campuran Sampah Sayuran dan Kotoran Sapi Sebagai penghasil Biogas,” Universitas islam Negeri Maulana Malik Ibrahim, Malang, 2016.
[10] T. Salim dan Sriharti, “PEMANFAATAN LIMBAH INDUSTRI PENGOLAHAN DODOL NANAS SEBAGAI KOMPOS DAN APLIKASINYA PADA TANAMAN TOMAT,” dalam Prosiding Seminar Nasional Teknoin Universitas Islam indonesia, Jakarta , 2008.
[11] Y. Yahya, Tamrin dan S. Triyono, “PRODUKSI BIOGAS DARI CAMPURAN KOTORAN AYAM, KOTORAN SAPI, DAN RUMPUT GAJAH MINI (Pennisetum Purpureum cv. Mott) DENGAN SISTEM BATCH,” Jurnal Teknik Pertanian Lampung, vol. 6, no. 3, pp. 151-160, 2017.
Published
2021-04-15