ANALISIS PEMBERIAN VARIASI KONSENTRASI MOLASES TERHADAP KUALITAS BIOPELLET ARANG TEMPURUNG KELAPA

https://doi.org/10.22146/a.74268

Fiba Granza Al Ghifari(1*), Soni Sisbudi Harsono(2)

(1) Fakultas Teknologi Pertanian, Universitas Jember
(2) Fakultas Teknologi Pertanian, Universitas Jember
(*) Corresponding Author

Abstract


Biopellet is one of the natural fuels that is relatively low price and renewable. Coconut shell waste that is widely or rarely used can be used as one of the main ingredients of biopellet manufacturing. Utilization becomes the main material in the manufacture of biopellet to know the feasibility can be done characteristic tests after the manufacture of biopellet from coconut shell charcoal and will be obtained the best quality. The treatment variable in this study was to provide variation in the adhesive content of molasses. The variations of the molasses adhesive used were with concentrations of 10%, 15%, 20%, and 25%. The analytical method used a one-way ANOVA test with the F test method and the further test is the Tuckey test the results obtained after the conduct of this study obtained the smallest moisture content value in the biopellet dose of 10 % by 1.02 %. The smallest ash content value in biopellet at a dose of 25 % is 6.74 %. The value of the smallest volatile matters content in biopellet at a dose of 10 % is 76.01 %. The largest carbon content value tied to biopellet at a dose of 10 % is 12.58 %. The largest calorific value in biopellet with a dose of 10% was 4783.56 kal/g. The longest fuel consumption rate in biopellet at a dose of 10% was 0.092 g/s. The old value of boiling the fastest water in the biopellet at a dose of 10% is 22,32 minutes. The largest efficiency value in biopellet at a dose of 10% is 20.22 %. Best Composition in this study on adhesive variation 10%.


Keywords


Biopellet, coconut shell, molasses, characteristic

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References

Abedi, A., Cheng, H. and Dalai, A. K. 2018. Effects of Natural Additives on the Properties of Sawdust Fuel Pellets. Energy and Fuels. 32, pp. 1863–

Ali, A., & Restuhadi, F. 2010. Optimasi Pembuatan Biopelet dari Bungkil Picung (Pangium Edule Reinw) dengan Penambahan Solar dan Perekat Tapioka. Sagu, 9 (1): 1-7.

Bantacut, T., Hendra, D., & Nuwigha, R. 2013. The Quality of Biopellet from Combination of Palm Shell Charcoal and Palm Fiber. Jurnal Teknologi Industri Pertanian, 23(1): 1–12.

Christanty, N. Ari. 2014. Biopelet Cangkang Dan Tandan Kosong Kelapa Sawit Sebagai Sumber Energi Alternatif Terbarukan. Departemen Hasil Hutan, Fakultas Kehutanan, Institut Pertanian Bogor

Faujiah, 2016. Pengaruh Konsentrasi Perekat Tepung Tapioka terhadap Kualitas Briket Arang Kulit Buah Nipah (Nyfa fruticans wurmb). (Skripsi). Makassar: UIN Alauddin Makassar

Hasanuddin dan Lahay, I.H., 2012. Pembuatan Biopelet Ampas Kelapa Sebagai Energi Bahan Bakar Alternative Pengganti Minyak Tanah. Laporan Penelitian. Jurusan Teknik Industri, Fakultas Teknik. Universitas Negeri Gorontalo.

Hassan, S. H. A., Zohri, A. el N. A. and Kassim, R. M. F. 2019. Electricity generation from sugarcane molasses using microbial fuel cell technologies. Energy. 178: 538–543.

Hendra D. 2012. Rekayasa pembuatan mesin pellet kayu dan pengujian hasilnya. J Penel Hasil Hutan. 30(2): 144–154.

Liliana W. 2010. Peningkatan Kualitas Biopelet Bungkil Jarak Pagar Sebagai Bahan Bakar Melalui Teknik Karbonisasi [Tesis]. Bogor (ID): Institut Pertanian Bogor.

Liu, Z., Fei, B., Jiang, Z., Cai, Z., & Liu, X. 2014. Important Properties of Bamboo Pellets to Be Used as Commercial Solid Fuel in China. Wood Science and Technology. 48(5): 903–917.

Mahdie, M. F. (2018, October). Sifat–Sifat Penyalaan Dari Pembakaran Biopellet Dari Limbah Serbuk Kayu Ulin Dan Limbah Serbuk Kayu Campuran (Balsa Dan Meranti) Sebagai Energi Terbarukan. In Prosiding Seminar Nasional Lingkungan Lahan Basah (Vol. 3, No. 2).

Marchel, W. I., Freeke, P., & Dedie, T. 2019. Analisis Perbedaan Jenis Bahan Dan Massa Pencetakan Briket Terhadap Karakteristik Pembakaran Briket Pada Kompor Biomassa. In Cocos, 1(5): 10-16

Nugrahaeni, JI. 2008. Pemanfaatan Limbah Tembakau (Nicotiana tobacco L) untuk Bahan Pembuatan Briket sebagai Bahan Bakar Alternatif. Fakultas Teknologi Pertanian. Institut Pertanian Bogor. Bogor.

Saktiawan, I. 2000. Identifikasi Sifat Fisis dan Kimia Briket Arang dari Sabut Kelapa (Cocos nucifera L.). Bogor: Jurusan Teknologi Hasil Hutan Fakultas Kehutanan, ITB.

Saptoadi H. 2008. The best briquette dimension and its particle size. Asian J. Energy Environ. 9:161-175.

Setiawan, Andrew. 2014. Kajian Potensi Penggunaan by Product Industri Pertanian di Kabupaten Jember Sebagai Bahan Baku Pembuatan Biopellet Untuk Bahan Bakar Alternatif. Jurnal Agrointek. 8(1): 20-30.

Syahira, Z., Nugroho, D. A. A., Faizin, R., Ramadhan, F. K., Sejahtera, S., Perdana, S., & Irzaman, I. 2016. Optimasi Analisis Dan Efisiensi Energi Termal Menggunakan Tungku Sekam Sebagai Bahan Bakar Alternatif Rumah Tangga (Studi Kasus Praktikum Termodinamika). In Prosiding Seminar Nasional Fisika. E-Journal. Vol. 5



DOI: https://doi.org/10.22146/a.74268

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