Pelletizing of Various Municipal Solid Waste: Effect of Hardness and Density into Caloric Value

• Autorzy: Suryawan I. Wayan Koko , Fauziah Eva Nur , Septiariva Iva Yenis , Ramadan Bimastyaji Surya , Sari Mega Mutiara , Ummatin Kuntum Khoiro , Lim Jun-Wei

Identyfikatory

DOI

10.12912/27197050/145825

• Języki publikacji: EN

Abstrakty

EN

Density and hardness are physical parameters in the manufacturing of refuse derived fuel (RDF) pellets. In making pellets, a high heating value for the combustion system is desired. This research aimed to analyze the mixture of municipal solid waste to its density and hardness and study its correlation to heating value. The variable used in this research is a mixture of paper waste and garden waste and food scraps and garden waste. The density and hardness for the mix of paper waste and garden waste were 1970.6 to 2474.8 kg/m³ and 37.8–42.8 HA, respectively. The mixture of food waste and garden waste has density and hardness of 1822 to 2276.7 kg/m³ and 17.4–37.8 HA. The correlation between density and hardness on heating values did not reach a significance of 0.05, so there was no strong relationship between density and hardness on heating values.

Słowa kluczowe

EN

density; hardness; caloric value; refuse derived fuel; RDF; pellet; waste

• Wydawca: Lubelski Oddział Polskiego Towarzystwo Inżynierii Ekologicznej ; Lublin University of Technology ; WNGB Wydawnictwo Naukowe
• Czasopismo: Ecological Engineering & Environmental Technology
• Rocznik: 2022
• Tom: Vol. 23, iss. 2
• Strony: 122--128
• Opis fizyczny: Bibliogr. 21 poz., rys., tab.

Twórcy

autor

Suryawan I. Wayan Koko

• Department of Environmental Engineering, Faculty of Infrastructure Planning, Universitas Pertamina, Komplek Universitas Pertamina, Jalan Sinabung II, Terusan Simprug, Jakarta 12220, Indonesia

• https://orcid.org/0000-0002-5986-0430

autor

Fauziah Eva Nur

• Department of Environmental Engineering, Faculty of Infrastructure Planning, Universitas Pertamina, Komplek Universitas Pertamina, Jalan Sinabung II, Terusan Simprug, Jakarta 12220, Indonesia

• https://orcid.org/0000-0002-7862-9701

autor

Septiariva Iva Yenis

• Civil Engineering Study Program, Faculty of Engineering, Universitas Sebelas Maret, Jl. Ir. Sutami 36A Surakarta 57126, Indonesia

• https://orcid.org/0000-0002-8629-370X

autor

Ramadan Bimastyaji Surya

• Department of Environmental Engineering, Faculty of Engineering, Universitas Diponegoro, Semarang, 50275, Indonesia

• https://orcid.org/0000-0002-5194-0743

autor

Sari Mega Mutiara

• Department of Environmental Engineering, Faculty of Infrastructure Planning, Universitas Pertamina, Komplek Universitas Pertamina, Jalan Sinabung II, Terusan Simprug, Jakarta 12220, Indonesia

• https://orcid.org/0000-0003-1736-687X

autor

Ummatin Kuntum Khoiro

• Engineering Management, Industrial and Agroindusty Technology Faculty, Universitas Internasional Semen Indonesia, Kompleks PT. Semen Indonesia (Persero) Tbk, Jl. Veteran, Kb. Dalem, Sidomoro, Kebomas, Gresik 61122, East Java, Indonesia

• https://orcid.org/0000-0003-4591-2292

autor

Lim Jun-Wei

• Department of Fundamental and Applied Sciences, HICoE-Centre for Biofuel and Biochemical Research, Institute of Self-Sustainable Building, Universiti Teknologi PETRONAS, Seri Iskandar 32610, Perak Darul Ridzuan, Malaysia

• https://orcid.org/0000-0003-0158-8822

Bibliografia

• 1. Abbas, M.M., & Rasheed, M. 2021. Solid State Reaction Synthesis and Characterization of Cu doped TiO2 Nanomaterials. Journal of Physics: Conference Series, 1795(1), 12059. https://doi.org/10.1088/1742-6596/1795/1/012059
• 2. Abdul Rashid, Z., Alias, A.B., Ku Hamid, K.H., Wan Omar, W.A., & Wan Abdul, K.G. 2016. Optimization of food waste utilization in the RDF recovery energy facility. International Food Research Journal, 23(December), S37–S43.
• 3. Alamsyah, R., Siregar, N.C., & Hasanah, F. 2016. Peningkatan Nilai Kalor Pellet Biomassa Cocopeat sebagai Bahan Bakar Terbarukan dengan Aplikasi Torefaksi Improvement of Caloric Value of Cocopeat Biomass Pellet as Renewable Energy Fuel by Torrefaction Application. Agro-Based Industry, 33(1), 17–23.
• 4. Ariefin, Sariyusda, Jannifar, Mawardi, I., & Franky 2018. Efektifitas Modifikasi Lubang Cetakan terhadap Karakteristik Wood Pellet. Proceeding Seminar Nasional Politeknik Negeri Lhokseumawe, 2(1), 66–71.
• 5. Bantacut, T., Hendra, D., & Nurwigha, R. 2013. The Quality of Biopellet from Combination of Palm Shell Charcoal and Palm Fiber. Jurnal Teknologi Industri Pertanian, 23(1), 1–12. http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.826.371&rep=rep1&type=pdf
• 6. Brachi, P., Chirone, R., Miccio, M., & Ruoppolo, G. 2019. Fluidized bed torrefaction of biomass pellets: A comparison between oxidative and inert atmosphere. Powder Technology, 357, 97–107. https://doi.org/https://doi.org/10.1016/j.powtec.2019.08.058
• 7. Briket, K., Sampah, D., & Di, O. 2012. Karakterisasi Briket Dari Sampah Organik Di Lingkungan Kampus Unnes. Sainteknol, 10(1), 23–29. https://doi.org/10.15294/sainteknol.v10i1.5541
• 8. Damayanti, R., Lusiana, N., & Prasetyo, J. 2017. Studi Pengaruh Ukuran Partikel dan Penambahan Perekat Tapioka terhadap Karakteristik Biopelet dari Kulit Coklat (Theobroma Cacao L.) Sebagai Bahan Bakar Alternatif Terbarukan. Jurnal Teknotan, 11(1). https://doi.org/10.24198/jt.vol11n1.6
• 9. Lestari, R., Prabawa, I., & Cahyana, B. 2019. Pengaruh Kadar Air Terhadap Kualitas Pelet kayu Dari Serbuk Gergajian Kayu Jabon dan Ketapang. Jurnal Penelitian Hasil Hutan, 37, 1–12. https://doi.org/10.20886/jphh.2019.37.1.1-12
• 10. Miranda, T., Montero, I., Sepúlveda, F.J., Arranz, J.I., Rojas, C.V, & Nogales, S. 2015. A review of pellets from different sources. Materials, 8(4). https://doi.org/10.3390/ma8041413
• 11. Mlonka-Mędrala, A., Dziok, T., Magdziarz, A., & Nowak, W. 2021. Composition and properties of fly ash collected from a multifuel fluidized bed boiler co-firing refuse derived fuel (RDF) and hard coal. Energy, 234, 121229. https://doi.org/https://doi.org/10.1016/j.energy.2021.121229
• 12. Nunes, L.J., Matias, J.C.D.O., & Catalao, J.P.D.S. 2017. Torrefaction of biomass for energy applications: From fundamentals to industrial scale. Academic Press.
• 13. Sarwono, A., Septiariva, I.Y., Qonitan, F.D., Zahra, N.L., Sari, N.K., Fauziah, E.N., Ummatin, K.K., Amoa, Q., Faria, N., Wei, L.J., & Suryawan, I.W.K. 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, 85.
• 14. Septiariva, I.V.A.Y., & Suryawan, I.W.K. 2021. Development of water quality index (WQI) and hydrogen sulfide (H2S) for assessment around suwung landfill, Bali Island. Journal of Sustainability Science and Management, 16(4), 137–148.
• 15. Sihombing, A.L.S.M., & Darmawan, R. 2020. Municipal Solid Waste Characteristic and Energy Potential in Piyungan Landfill. Applied Mechanics and Materials, 898, 58–63. https://doi.org/10.4028/www.scientific.net/AMM.898.58
• 16. Ummatin, K.K., & Arifianti, Q.A.M.O. 2017. Review and analysis of coal substitution with Refuse Derived Fuel (RDF) in cement plant using system dynamic. Journal of Engineering and Applied Sciences, 12(8), 2181–2184. https://doi.org/10.3923/jeasci.2017.2181.2184
• 17. Wahyono, S.R.I., Sahwan, F.L., Suryanto, F., Febriyanto, I., & Nugroho, R. 2019. Study of characterization of landfill based municipal solid waste and its potential utilization (Case study at Sukawinatan and Bantargebang Landfill). Jurnal Teknologi Lingkungan, 20(2), 179–188.
• 18. Wardana, K.A., Soetopo, R.S.,. S., Asthary, P.B., & Aini, M.N. 2015. Perekat untuk pembuatan pelet pupuk organik dari residu proses digestasi anaerobik lumpur biologi industri kertas. Jurnal Selulosa, 5(02), 69–78. https://doi.org/10.25269/jsel.v5i02.82
• 19. Winata, A. 2013. Karakteristik Biopelet dari Campuran Serbuk Kayu Sengon dengan Arang Sekam Padi sebagai Bahan Bakar Alternatif Terbarukan. IPB University.
• 20. Yuliarningsih, R., Goembira, F., & Komala, P.S. 2018. Pemanfaatan Oil Sludge dan Limbah Biomassa Sebagai Bahan Baku Densified Refused Derived Fuels (RDF-5) untuk Bahan Bakar Alternatif di Industri Semen. Seminar Nasional Sains Dan Teknologi Lingkungan III Review, III(1), 2.
• 21. Zaman, B., Oktiawan, W., Hadiwidodo, M., Sutrisno, E., & Purwono, P. 2021. Calorific and greenhouse gas emission in municipal solid waste treatment using biodrying. Global Journal of Environmental Science and Management, 7(1), 33–46. https://doi.org/10.22034/gjesm.2021.01.03