Perencanaan Proses Pengolahan Sampah Plastik dan Kebun di Kabupaten Boyolali dengan Prinsip Karbonisasi Menjadi Energi

  • Mayang Ananda Rini
  • Novica Ayu Sari
  • Whindy Ndaru Oktaviani
  • Rarastika Nur Ghaida
  • Mega Mutiara Sari
  • I Wayan Koko Suryawan Universitas Pertamina

Abstract

Waste management in Boyolali Regency is one of the challenges to achieve the smart city criteria. Garbage in Bolali Regency contains 56.12% plastic composition and 37.13% garden waste. Plastic and garden waste has a calorific value that exceeds 5000 kcal/kg, so it can be used as briquettes. The purpose of this study is to analyze the proper planning and can be carried out in Boyolali Regency by using the carbonization process to produce quality briquettes. The waste processing process consists of the process of sorting plastic waste and garden waste, then counting, then carbonization is carried out, so that briquettes are obtained according to standards. The total waste treated is about 90 ton/day and 45 ton/day, for plastic waste and garden waste respectively. If this process is applied at least, it can reduce as much as 50.77% of waste generation in Boyolali Regency. The total recovery of waste energy from the carbonization facility can reach 5611384.6 MJ/day. The land requirement from the processing process reaches 117 ² with the layouting process having dimensions of 264 m x 65 m.

Downloads

Download data is not yet available.

References

[ 1 ] Seruyaningtyas, K. (2019, March). Preliminary Study of Smart Regional Waste Recycling in Boyolali, Central Java, Indonesia. In IOP Conference Series: Earth and Environmental Science (Vol. 248, No. 1, p. 012051). IOP Publishing.

[ 2 ] Zanella, A., Bui, N., Castellani, A., Vangelista, L., & Zorzi, M. (2014). Internet of things for smart cities. IEEE Internet of Things journal, 1(1), 22-32.

[ 3 ] Winarto, W., Mahfiana, L., Rosyidah, Z. N., & Wicaksono, A. (2019). Pendampingan Manajemen Pengelolaan Sampah di Masyarakat Desa Gagaksipat Kecamatan Ngemplak Kabupaten Boyolali. Dimas: Jurnal Pemikiran Agama untuk Pemberdayaan, 19(2), 191-204.

[ 4 ] Puspitasari, L., & Warsono, H. (2019). Analisis Penanganan Sampah Berbasis Masyarakat Di Desa Doplang, Kecamatan Teras, Kabupaten Boyolali. Journal of Public Policy and Management Review, 9(1), 107-119.

[ 5 ] Kementerian Lingkungan Hidup. "Sistem informasi Pengelolaan Sampah Nasional 2019". http://sipsn.menlhk.go.id2019.

[ 6 ] Grycová, B., Pryszcz, A., Lestinsky, P., & Chamrádová, K. (2018). Influence of potassium hydroxide and method of carbonization treatment in garden and corn waste microwave pyrolysis. Biomass and Bioenergy, 118, 40-45.

[ 7 ] Chen, S., Liu, Z., Jiang, S., & Hou, H. (2020). Carbonization: a feasible route for reutilization of plastic wastes. Science of the Total Environment, 710, 136250.

[ 8 ] Haridan, N. A., Yoshida, H., Salleh, M. A. M., & Izhar, S. (2020, December). Carbonization of excess sewage sludge using superheated water vapor to produce fuel. In IOP Conference Series: Materials Science and Engineering (Vol. 991, No. 1, p. 012068). IOP Publishing.

[ 9 ] Sawir, H. (2016). Pemanfaatan sampah plastik menjadi briket sebagai bahan bakar alternatif dalam kiln di pabrik PT Semen Padang. Jurnal Sains dan Teknologi: Jurnal Keilmuan dan Aplikasi Teknologi Industri, 16(1), 62-69.

[ 10 ] Suryawan, I. W. K., Sarwono, A., Septiariva, I. Y., & Lee, C. H. (2021). Evaluating Marine Debris Trends and the Potential of Incineration in the Context of the COVID-19 Pandemic in Southern Bali, Indonesia. Jurnal Ilmiah Perikanan dan Kelautan, 13(2).

[ 11 ] Ndraha, N. (2009). Uji komposisi bahan pembuat briket bioarang tempurung kelapa dan serbuk kayu terhadap mutu yang dihasilkan. Medan: Universitas Sumatera Utara.

[ 12 ] Hastiawan, I. (2018). Pembuatan Briket Dari Limbah Bambu Dengan Memakai Adhesive Pet Plastik Di Desa Cilayung, Jatinangor. Dharmakarya, 7(3), 154-156.

[ 13 ] Qonitan, F. D., Suryawan, I. W. K., & Rahman, A. (2021, April). Overview of Municipal Solid Waste Generation and Energy Utilization Potential in Major Cities of Indonesia. In Journal of Physics: Conference Series (Vol. 1858, No. 1, p. 012064). IOP Publishing.

[ 14 ] Standardisasi Nasional SNI 1-6235-2000

[ 15 ] Sarwono, A. Septiariva, I. Y., Qonitan, F. D. Zahra, N. B., Fauziah, E. Ummatin, K. K., Amoa, Q., Faria, N., Lim, J. W., Suryawan, I. (2021). Municipal Solid Waste Treatment for Energy Recovery Through Thermal Waste-To-Energy in Depok City, Indonesia. Journal Of Advanced Research in Fluid Mechanics and Thermal Sciences

[ 16 ] Nidhi, C., Sharma, B., & Singh, P. K. (2017). Energy Value In Biomass And Plastic Components Of Municipal Solid Waste. MATTER: International Journal of Science and Technology, 3(2).

[ 17 ] Tchobanoglous, G., Theisen, H. dan Vigil, S, A. (1993). Integrated Solid Waste. Management Engineering Principles and Management Issues. Mc Graw Hill. New York.
Published
2022-01-11
How to Cite
RINI, Mayang Ananda et al. Perencanaan Proses Pengolahan Sampah Plastik dan Kebun di Kabupaten Boyolali dengan Prinsip Karbonisasi Menjadi Energi. Jurnal Energi Dan Manufaktur, [S.l.], v. 14, n. 1, p. 32-36, jan. 2022. ISSN 2541-5328. Available at: <https://ojs.unud.ac.id/index.php/jem/article/view/76056>. Date accessed: 21 nov. 2024. doi: https://doi.org/10.24843/JEM.2021.v14.i01.p06.
Section
Articles