PEMANFAATAN DAUN PINUS JARUM UNTUK DIJADIKAN BRIKET BIOCOAL SEBAGAI ENERGI LISTRIK ALTERNATIF

Fitriani Said, Herawati Herawati

Abstract


Biomass is organic material produced through the photosynthetic process in the form of products or waste. Examples of biomass include plants, trees, grass, agricultural waste, forest waste, feces and livestock manure. This biomass can be used as an alternative fuel to replace petroleum which is suitable for development in Tarakan. One of the abundant sources of biomass is needle pine leaves which are found on the UBT campus, Pesisir Charity Beach and Tarakan City Nursery. The selection of fallen needle pine leaves as biomass in this study was based on the absence of utilization of pine leaf waste. Thus, in this study, dry needle pine leaf waste will be utilized to make briquettes mixed with coal with a variant of adhesive composition. There are 3 types of adhesives used, sago, starch starch and clay. Of the 3 types of adhesives, each sample was tested to obtain the value of moisture content, ash content, heat and electrical energy. Briquettes can be said to be good if they have a water content value below 8% according to SNI. Where the water content in the sago adhesive is in the range of more than 6%, while for starch adhesive it is in the range of 5%-6% and for clay adhesive the value is in the range of 5%-7%. The ash content in this study has met the SNI standard, which is below 8%, but the clay adhesive has an ash content close to 8%, which is 7.95%. The value of voltage and current is influenced by the composition of the sample, where the smaller the percentage of the pine leaf content, the smaller it is, and vice versa. The calorific value is obtained from the analysis of existing data to obtain a large enough heating value, which is in the range of 4500 J.

Keywords


Briquettes; Heat; Convert Heat Energy to electricity

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References


Addina, K. N., and Lazulva. "Potential of Bio-briquette of Pineapple Crown Waste (Ananas comosus (L.)" Indonesian Journal of Chemical Science and Technology (IJCST) 2.1(2018): 84-89.s

Amin, A. Z., Pramono, and Sunyoto. "Pengaruh Variasi Jumlah Perekat Tepung Tapioka terhadap Karakteristik Briket Arang Tempurung Kelapa." Sainteknol: Jurnal Sains dan Teknologi 15.2 (2017): 111-118.

Anizar, Heny, Evi S., and Sonia S. "Pengaruh Bahan Perekat Tapioaka Dan Sagu Terhadap Kualitas Briket Arang Kulit Buah Nipah." Perennial 16.1 (2020): 11-17.

Barus, Kasta Efrata, Achwil Putra Munir, and Sulastri Panggabean. "Pembuatan Briket Dari Sekam Padi Dengan Kombinasi Batubara†(Briquetting of Rice Husk With a Combination of Coal)." Jurnal Rekayasa Pangan dan Pertanian 5.2(2017):397-401.

Dwiga, Rahman Syarif. Studi Karakteristik Konversi Energi Panas Menjadi Energi Listrik Menggunakan Termoelektrik Dengan Larutan Urea Sebagai Media Penyimpan Energi Panas. Diss. Universitas Andalas, 2017. Ependi, Selamat. "Pengembangan Perangkat Konversi Energi Panas Menjadi Energi Listrik." (2016).

Hiendro, A., & Suryadi, D. Perancangan Dan Pengujian Sistem Pembangkit Listrik Berbasis Termoelektrik Dengan Menggunakan Kompor Surya Sebagai Media Pemusat PANAS. Jurnal Teknik Elektro Universitas Tanjungpura,(2019) 2(1).

Jahiding, M., E. S. Hasan, and A. S. Gangganora. "Pengembangan Briket Batubara Muda (Brown Coal) Sebagai Bahan Bakar Alternatif Berkalori Tinggi." Jurnal Aplikasi Fisika 10.1 (2016).

Kunlestiowati, H. "Analisis penyimpangan konversi energinlistrik menjadi kalor pada perangkat eksperimen HukumnJoule." JRKPF UAD 5.1 (2018): 34-39

Ningsih, E., Mirzayanti, Y. W., Himawan, H. S., & Indriani, H. M. (2016). Pengaruh Jenis Perekat pada Briket dari Kulit Buah Bintaro terhadap Waktu Bakar. In Seminar Nasional Teknik Kimia Kejuangan (p. 3).

Mirnawati, M. (2012). Pengaruh konsentrasi Perekat Getah Pinus terhadap Nilai Kalor Pembakaran Biobriket Campuran Sekam Padi dengan Tempurung Kelapa (Doctoral dissertation, Universitas Islam Negeri Alauddin Makassar).

Putra, F. R. J. (2019). Penyimpanan Energi Listrik Dari Konversi Energi Panas Menjadi Energi Listrik Menggunakan Thermoelectric Generator.

Puspita, S. C., Sunarno, H., & Indarto, B. (2017). Generator termoelektrik untuk pengisisan aki. JFA (Jurnal Fisika dan Aplikasinya), 13(2), 84-87.

Putri, R. E., & Andasuryani, A. (2017). Studi Mutu Briket Arang Dengan Bahan Baku Limbah Biomassa. Jurnal Teknologi Pertanian Andalas, 21(2), 143- 151.

Rhaharjo, A. C. (2019). Pemanfaatan Limbah Batang Singkong Dengan Penambahan Batubara Sebagai Briket Menggunakan Perekat Tapioka.

Suluh, S. (2019). Studi Eksperimen Pemanfaatan Limbah Daun Bambu, Daun Kopi Dan Daun Pinus Sebagai Bahan Bakar Alternatif. Mechanical Engineering Science (MES), 1(1), 18-23.




DOI: https://doi.org/10.35334/jeb.v7i2.2138

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