Effect of Variation in Tapioca Adhesive Composition on Quality of Coconut Pulp Charcoal Bio-Broquette

Abdul Maulub Hrp; Yenni Darvina; - Gusnedi

doi:10.24036/15154171074

Effect of Variation in Tapioca Adhesive Composition on Quality of Coconut Pulp Charcoal Bio-Broquette

Abdul Hrp - Departement of physics, Universitas Negeri Padang, Jl. Prof. Dr. Hamka Air Tawar Padang 25131
Yenni Darvina - Departement of physics, Universitas Negeri Padang, Jl. Prof. Dr. Hamka Air Tawar Padang 25131
- Gusnedi - Departement of physics, Universitas Negeri Padang, Jl. Prof. Dr. Hamka Air Tawar Padang 25131

Abstract

Energy needs and consumption are still increasing, while energy sources continue to decrease due to their non-renewable nature. Renewable energy sources are needed as a substitute for alternative energy that is renewable, cheap, and environmentally friendly. Making bio-broquettes from coconut pulp charcoal is one of the studies that need to be studied and developed at this time. The abundance of coconut pulp waste is still not optimally utilized in managing its potential as a material for making bio-broquette. The composition of the adhesive used determines the quality of the bio-broquettes. This study aims to determine the effect of variations in the composition of tapioca adhesive on the calorific value, moisture content, density, ash content, fly content, carbon content, and burning rate of bio-broquettes. The material used for making bio-broquettes is coconut pulp charcoal. While the composition of tapioca adhesive that is varied is 30%, 40%, and 50%. The research used an experimental method, with 3 test treatments for each sample. The results obtained with 30%, 40%, and 50% tapioca adhesive for all test parameters have met the quality standards of charcoal bio-broquettes based on SNI 01-6235-2000. The best composition of tapioca adhesive is bio-broquettes that have a ratio of coconut pulp charcoal with 70% tapioca adhesive: 30% which produces the highest calorific value of 6,825.79 cal/gram, the lowest moisture content of 5.66%, density of 2.25 grams/cm3, the lowest ash content of 2.82%, the lowest fly substance content of 3.17%, the highest carbon content of 88.35%, and the highest burning rate of 0.1032 grams/minute

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References

Darvina, Yenni dan Nur Asma. Upaya Peningkatan Kualitas Briket dari Arang Cangkang dan Tandan Kosong Kelapa Sawit (TKKS) melalui Variasi Tekanan Pengpresan. Universitas Negeri Padang, Padang (2011).

Retnani. 2020. Kajian Kualitas biobriket Biomassa dari Ampas kelapa dan Tempurung Kelapa. Jurnal Kimia VALENSI, 2(2), pp. 136–142.

Rahmiati. 2018. Analisis Faktor yang Berpengaruh Terhadap Kualitas biobriket Ampas Kelapa dengan Menggunakan Desain Eksperimen. Elkawnie: Journal of Islamic Science and Technology Vol. 4, No.1.

Samsinar. 2019. Penentuan Nilai Kalor biobriket dengan Memvariasikan Berbagai bentuk alat pencetak biobriket.Makassar: Universitas Islam Negeri Alauiddin.

Amin Ahmad Zaenul, dkk. 2017. Pengaruh Variasi Jumlah Perekat Tepung Tapioca Terhadap Karakteristik Briket Arang Ampas Kelapa. Semarang: Universitas Negeri Semarang.

Dina, et al. 2022. Uji Kualitas Briket Arang Ampas Daging Buah Kelapa Berdasarkan Nilai Kadar Air. Lembaga Penelitian: Universitas Trisakti.

Hamka. 2018. Pengaruh Lama Pembakaran dan suhu pembakaran arang biobriket Pada Pembuatan biobriket berbahan ampas kelapa. Journal : Buletin Loupe Vol. 14 No. 02.

Andi K. et al. 2017. Modifikasi Alat Pencetak Briket Hidrolik Berbahan Ampas Kelapa. UN PGRI Kediri.

Apriyanti, D. (2020). Analisa Kualitas biobriket Ampas Kelapa dan Tempurung Kelapa Ditinjau dari jenis Perekat. Politeknik Negeri Sriwijaya.

Suhardiyono. 2019. Pembuatan dan Analisis Mutu biobriket Arang Ampas Kelapa Ditinjau dari Kadar Kanji. Jurnal Chemica, 14(1), pp. 74–83.

Admaja. 2019. Uji Kualitas biobriket Berbahan Arang Ampas Kelapa Berdasarkan Nilai Kadar Air. Journal: p-ISSN 0853-7720; e-ISSN 2541-4275, Volume 7, Nomor 1, Halaman 14 – 23.

Norman, Dkk. 2019. Uji Kualitas Produk biobriket Arang Ampas Kelapa Berdasarkan Standar Mutu SNI. Momentum, Vol. 15, No. 2, Oktober 2019, Hal. 103-108.

Hasanuddin. 2018. Karakteristik Pembakaran Dan Sifat Fisik biobriket Ampas Daging Buah Kelapa untuk Berbagai Bentuk Dan Presentase Perekat. Universitas Brawijaya. Malang.

Budiarto, A. et al. (2021). Bahan Bakar biobriket Bioarang Sebagai Sumber Energi Alternatif. 1(1), pp. 165–174.

Eka, et al. 2017. Pembuatan Briket Arang Berbahan Campuran Ampas Daging Buah Kelapa dan Tongkol Jagung. Machine: Jurnal Teknik Mesin Vol.3. No.1.

Faujiah. 2021. Pemampaatan Sampah Organik Menjadi biobriket Dengan Variasi Komposisi Ampas Kelapa. Surabaya: Universitas Islam Negeri Sunan Ampel.

Sucipto. 2021. Pengaruh Variasi Temperatur Cetakan Terhadap Karakteristik biobriket ampas daging buah kelapa Pada Tekanan Kompaksi 100N/cm2.Universitas Negeri Semarang , Vol 7.

Mislaini. 2018. Studi Variasi Komposisi Bahan Penyusun biobriket dari Ampas kelapa dan Limbah Pertanian. Jurnal Teknik Pertanian, hal:1-26.

DOI: http://dx.doi.org/10.24036/15154171074