Evaluasi Komprehensif Kualitas Briket dari Arang Tempurung Kelapa dan Campuran Serbuk Gergaji Sengon Terkarbonisasi/Tidak Terkarbonisasi

Dimas Ficky Hidayat; Yeyen Maryani; Eka Sari

doi:10.55606/jurrimipa.v4i3.8142

Authors

Dimas Ficky Hidayat Universitas Sultan Ageng Tirtayasa
Yeyen Maryani Universitas Sultan Ageng Tirtayasa
Eka Sari Universitas Sultan Ageng Tirtayasa

DOI:

https://doi.org/10.55606/jurrimipa.v4i3.8142

Keywords:

Biomass Briquette, Calorific Value, Coconut Shell Charcoal, Renewable Energy, Sengon Sawdust

Abstract

This study comprehensively evaluates the quality of biomass briquettes produced from blends of coconut shell charcoal and sengon sawdust, using both carbonized and non-carbonized materials. Composite briquettes were fabricated with varying compositions and characterized through proximate analysis, calorific value, density, and burning rate measurements to determine their suitability as solid fuel. The results indicate that adding non-carbonized sawdust increases volatile matter content and burning rate but reduces the calorific value of the briquettes. In contrast, incorporating up to 10% carbonized sawdust significantly improves the calorific value to 6119.2 cal/g, approaching that of pure coconut shell charcoal (6352.2 cal/g), while maintaining a relatively high burning rate. Briquettes containing carbonized sawdust also exhibit low ash content, below 3%, and moisture content under 8%, meeting standard solid fuel quality requirements. These findings demonstrate that a strategic combination of carbonized and non-carbonized materials can produce hybrid biomass briquettes with optimized thermal performance, providing a promising, sustainable, and environmentally friendly alternative fuel for domestic and industrial applications.

Downloads

Download data is not yet available.

References

Agussalim, A., Khairana, A., Rajab, M., Rezky, M., & Dwiyanti, U. (2021). Mutu dan karakteristik penyalaan briket arang tempurung kelapa dengan aplikasi lapisan arang sengon pada permukaannya. Jurnal Rekayasa Proses, 16(Pribadi 2020), 1–8. https://doi.org/10.22146/jrekpros.70277

Dewi, R. P., & Isnanto, R. (2023). Analysis of fixed carbon and volatile matter briquettes of pine sawdust and coconut shell waste. Rekayasa Mesin, 14(3), 901–907. https://doi.org/10.21776/jrm.v14i3.1421

Francioso, O. (2024). Current and future perspectives for biomass waste management and utilization. Scientific Reports, 24–26. https://doi.org/10.1038/s41598-024-59623-1

Gobel, A. P., & Arief, A. T. (2021). Pengaruh karbonisasi terhadap karakteristik tempurung kelapa berdasarkan uji proksimat dan nilai kalor. Jurnal Mel, 5(1), 48–54. https://doi.org/10.31315/jmel.v5i1.5370

Hasna, A. H., Sutapa, J. P. G., & Irawati, D. (2019). Pengaruh ukuran serbuk dan penambahan tempurung kelapa terhadap kualitas pelet kayu sengon. Jurnal Ilmu Kehutanan, 13, 170–180. https://doi.org/10.22146/jik.52428

Hastiawan, I., Haryono, Ernawati, E., Noviyanti, A. R., Eddy, D. R., Rukiah, & Yuliyati, Y. B. (2018). Pembuatan briket dari limbah bambu dengan memakai adhesive PET plastik di Desa Cilayung, Jatinangor. Dharmakarya, 7(3), 154–156. https://doi.org/10.24198/dharmakarya.v7i3.19347

Hutagaol, W. M., Tunggal, T., & Hayati, A. (2015). Pengaruh tekanan dan ukuran partikel arang penyusun briket terhadap karakteristik briket pelepah kelapa sawit. Jurnal Teknik Pertanian Sriwijaya, 4(2).

Ilma, R. Z., Abidin, A., & Bahri, H. (2024). Produksi briket bioarang dari produksi briket limbah serbuk kayu jati dengan metode pirolisis. National Multidisciplinary Sciences, 3(1), 423–432.

Inegbedion, F. (2022). Estimation of the moisture content, volatile matter, ash content, fixed carbon and calorific values of saw dust briquettes. MJEN, 10(1), 17–20. https://doi.org/10.51354/mjen.940760

Ismadji, S., Soetaredjo, F. E., Santoso, S. P., Putro, J. N., Yuliana, M., Irawati, W., Hartono, S. B., & Lunardi, V. B. (2021). Adsorpsi pada fase cair.

Lestari, R. A. S. (2021). Briket biomassa dari jerami padi, sampah daun dan kotoran sapi. Inovasi Teknik Kimia, 6(2), 66–72. https://doi.org/10.31942/inteka.v6i2.5504

Maiwa, N. F. K. (2018). Uji kualitas briket biomassa dari hasil blending karbon cangkang kemiri dan batubara dengan perekat sagu.

Mimut, A. R. (2021). Pengaruh variasi jumlah campuran bahan perekat terhadap karakteristik briket arang tongkol jagung.

Mustain, A., Sindhuwati, C., Wibowo, A. A., & Estelita, A. S. (2021). Pembuatan briket campuran arang ampas tebu dan tempurung kelapa sebagai bahan bakar alternatif. Jurnal TJKL, 5(September 2020), 100–106. https://doi.org/10.33795/jtkl.v5i2.183

Napitupulu, R., Pratama, R. J., & Dharta, Y. (2025). Analisis ukuran partikel serbuk arang terhadap pengurangan kadar abu pada briket tempurung kelapa. Teknologi, 25(1), 44–49. https://doi.org/10.30811/teknologi.v25i1.6256

Novitra, R. (2021). Superkapasitor berbahan dasar karbon aktif dari ampas biji kopi robusta dengan aktivator NaOH.

Nurhilal, O., & Suryaningsih, S. (2017). Karakterisasi biobriket campuran serbuk kayu dan tempurung kelapa. Jurnal JMEI, 7(2), 13–16. https://doi.org/10.24198/jmei.v7i02.15344

Nuryawan, A., Simatupang, J., Risnasari, I., Tambunan, H., & Utami, S. S. (2025). Physical, chemical, mechanical, and thermal properties of charcoal briquettes produced from mangrove branch wood. Frontiers in Materials, 1–18. https://doi.org/10.3389/fmats.2025.1611316

Oktaviansyah, I., Hindriarsana, A. Y., & Wahyudi, A. (2024). Pengaruh karbon aktif tempurung kelapa dan karbon aktif industrial terhadap parameter ammonia pada Danau Sipin. REDOKS, 9, 137–146. https://doi.org/10.31851/redoks.v9i2.14541

Qistina, I., Sukandar, D., & Trilaksono, T. (2016). Kajian kualitas briket biomassa dari sekam padi dan tempurung kelapa. Jurnal Kimia VALENSI, 2(2), 136–142. https://doi.org/10.15408/jkv.v2i2.4054

Rahmawati, S., Afafil, Suherman, Santoso, T., Abram, P. H., & Rabasia. (2023). The utilization of durian peels (Durio zibethinus) for the manufacturing of charcoal briquettes as alternative fuel. Journal of Natural Resources and Environmental Management, 13(1), 76–87. https://doi.org/10.29244/jpsl.13.1.76-87

Ramadani, G. (2012). Kinerja pembakaran biobriket yang terbuat dari biomassa bagasse tebu dan batubara subbituminous dalam kompor briket.

Setyono, M. Y. P., & Purnomo, Y. S. (2022). Analisis kadar air dan kadar abu briket lumpur IPAL dan fly ash dengan penambahan serbuk gergaji kayu. Insologi, 1(6), 696–703. https://doi.org/10.55123/insologi.v1i6.1047

Shohib, A., Da Silva, T., Pramudono, B., Rokhati, N., & Kasmiyatun, M. (2023). Analisis komposisi selulosa, hemiselulosa, dan lignin dalam berbagai jenis kayu: Metode Chesson-Datta. Inovasi Teknik Kimia, 8, 318–323.

Suwandi, A. M., Fernanda, Y., & Arafat, A. (2023). Characteristics of Albizia chinensis wood sawdust briquette product at high compression method. MOTIVECTION: Journal of Mechanical, Electrical and Industrial Engineering, 5, 139–150. https://doi.org/10.46574/motivection.v5i1.196

Wulandari, L. A., Azis, M. M., Wintoko, J., Kristanto, J., & Caroko, N. (2025). Microwave-assisted pyrolysis process of sengon sawdust by using Ni/Al₂O₃ catalyst. 4(June 2023), 2–7.

Yopianita, A., Syarif, A., Yerizam, M., & Rusdianasari. (2022). Biocoal characterization as an environmentally friendly alternative energy innovation composite variations of gasified char with coconut shell charcoal. IJFAC, 7(2). https://doi.org/10.24845/ijfac.v7.i2.68

Yuliah, Y., Suryaningsih, S., & Ulfi, K. (2017). Penentuan kadar air hilang dan volatile matter pada bio-briket dari campuran arang sekam padi dan batok kelapa. Jurnal Ilmu dan Inovasi Fisika, 1(1), 51–57. https://doi.org/10.24198/jiif.v1n1.7

Evaluasi Komprehensif Kualitas Briket dari Arang Tempurung Kelapa dan Campuran Serbuk Gergaji Sengon Terkarbonisasi/Tidak Terkarbonisasi

Authors

DOI:

Keywords:

Abstract

Downloads

References

Downloads

Published

How to Cite

Issue

Section

License

menu