Application of Refuse-Derived Fuel (RDF) Plant in Piyungan Landfill Municipal Solid Waste Management
Diananto Prihandoko(1*), Chandra Wahyu Purnomo(2), Primanda Kiky Widyaputra(3), Nasirudin Nasirudin(4)
(1) Faculty of Environmental Engineering, Institut Teknologi Yogyakarta, Indonesia
(2) Agrotechnology Innovation Center, Universitas Gadjah Mada Yogyakarta, Indonesia
(3) Faculty of Natural Resources Technology, Institut Teknologi Yogyakarta, Indonesia
(4) Department of Environmental Science, Postgraduate School, Institut Teknologi Yogyakarta, Indonesia
(*) Corresponding Author
Abstract
Piyungan Landfill is the biggest landfill in the Yogyakarta Province that still operates in overcapacity condition. A new alternative is highly required in solid waste management in the landfill, which can reduce the volume of the waste coming into it and decrease the need for a new landfill area. Refused-derived fuel (RDF) plant is one of the technological alternatives in solid waste management that has the potential to reduce the volume of solid waste and change the waste into fuel. The study analyzed the potential of the application of the RDF to reduce the volume of solid waste in the Piyungan landfill and its economic feasibility. The results of the analysis showed that during the operational period of the RDF plant, the volume of the solid waste coming into the landfill could be annually reduced by 43% on average. The results of the economic analysis show that the RDF plant in the Piyungan Landfill is feasible to apply with an NPV of IDR 281.46 billion, an IRR of 24%, and a payback period of 6 years.
Keywords
Full Text:
PDFReferences
Brás, I., Silva, M. E., Lobo, G., Cordeiro, A., Faria, M., & De Lemos, L. T., 2017. “Refuse derived fuel from municipal solid waste rejected fractions-a case study.” Energy Procedia, 120, 349-356
Brunner, P. H., & Rechberger, H. 2015. “Waste to energy - key element for sustainable waste management.” Waste Management, 37, 3-12
Caputo, A. C., & Pelagagge, P. M. 2002. “RDF production plants: I. Design and costs.” Applied Thermal Engineering, 22 (4), 423-437
Choi, Y.-S., Choi, H.-S., & Kim, S.-J. 2011. “An economic evaluation of MSW RDF production plant.” Journal of The Korean Society for New and Renewable Energy, 7 (1), 29–35
El-Fadel, M., Findikakis, A. N., & Leckie, J. O. 1997. “Environmental impacts of solid waste landfilling.” Journal of Environmental Management, 50 (1), 1-25
Fei, F., Wen, Z., Huang, S., & De Clercq, D. 2018. “Mechanical biological treatment of municipal solid waste: Energy efficiency, environmental impact and economic feasibility analysis.” Journal of Cleaner Production, 178, 731-739
Guerrero, L. A., Maas, G., & Hogland, W. 2013. “Solid waste management challenges for cities in developing countries.” Waste Management, 33 (1), 220-232
Harjito, Suntoro, Gunawan, T., & Maskuri, M. 2018, “Underground leachate distribution based on electrical resistivity tomography in Piyungan landfill, Bantul.” Indonesian Journal of Geography, 5 (1), 34-40
Meira de Sousa Dutra, R., Harue Yamane, L., & Ribeiro Siman, R. 2018. “Influence of the expansion of the selective collection in the sorting infrastructure of waste pickers’ organizations: A case study of 16 Brazilian cities.” Waste Management, 77, 50-58
Násner, A. M. L., Lora, E. E. S., Palacio, J. C. E., Rocha, M. H., Restrepo, J. C., Venturini, O. J., & Ratner, A. 2017. “Refuse Derived Fuel (RDF) production and gasification in a pilot plant integrated with an Otto cycle ICE through Aspen plusTM modelling: Thermodynamic and economic viability.” Waste Management, 69, 187-201
Nasyton, K., Maryunani, Harahab, N., & Prasetyo, B. 2018. “The cost benefit analysis between conventional final shelter with refuse derived fuel waste management in Cilacap city.” International Journal of Science and Research (IJSR), 7 (11), 867-870
Ouda, O. K. M., Raza, S. A., Nizami, A. S., Rehan, M., Al-Waked, R., & Korres, N. E. 2016. “Waste to energy potential: A case study of Saudi Arabia.” Renewable and Sustainable Energy Reviews, 61, 328-340
Paramita, W., Hartono, D. M., & Soesilo, T. E. B. 2018. “Sustainability of refuse derived fuel potential from municipal solid waste for cement’s alternative fuel in Indonesia (A case at Jeruklegi Landfill, in Cilacap).” IOP Conference Series: Earth and Environmental Science, 159, 1-6,
Parhusip, J. A., Harijoko, A., Putra, D. P. E., & Suryanto, W. 2017. “Assessment of leachate infiltration from Piyungan landfill using electrical resistivity method.” AIP Conference Proceedings, 1861 (1)
Prihandoko, D., Budiman, A., Fandeli, C., & Setyono, P. 2019. “Alternative of waste treatment technology based on economic development and waste composition in TPST Piyungan, Yogyakarta.” AIP Conference Proceedings, 2202 (1)
Prihandoko, D., Budiman, A., Fandeli, C., & Setyono, P. 2020. “A New Paradigm for Solid Waste Management in Integrated Waste Management Site Piyungan Yogyakarta, Indonesia.” Applied Mechanics and Materials, 898, 51-57
Prihandoko, D., Budiman, A., Setyono, P., Fandeli, C., Budiastuti, M.Th.S. 2021. “Appropriate technology for municipal solid waste management based on wastepreneurship implementation”, ASEAN Journal of Chemical Engineering, 21 (1), 113-123
Purnama Putra, H., Damanhuri, E., & Marzuko, A. 2018. “The concept of “loop Cycle” in landfill management (Case study at Piyungan landfill, Yogyakarta, Indonesia).” MATEC Web of Conferences, 154,
Ramadhan, F., Prasasti D.R, F., Firizqy, F., & Nugroho Adji, T. 2019. “Pendugaan distribusi air lindi dengan geolistrik metode ERT di TPA Piyungan, Bantul, DIY”, Majalah Geografi Indonesia, 33 (1), 1-8
Sarc, R., & Lorber, K. E. 2013. “Production, quality and quality assurance of refuse derived fuels (RDFs)”, Waste Management, 33 (9), 1825-1834,
Sudibyo, H., Majid, A. I., Pradana, Y. S., Budhijanto, W., Deendarlianto, & Budiman, A. 2017. “Technological evaluation of municipal solid waste management system in Indonesia.” Energy Procedia, 105, 263-269
Sudibyo, H., Pradana, Y. S., Budiman, A., & Budhijanto, W. 2017. “Municipal solid waste management in Indonesia - A study about selection of proper solid waste reduction method in D.I. Yogyakarta province.” Energy Procedia, 143, 494-499
Yadav, R., 2015. “Solid waste management.” Pollution Research, 34 (1), 111-120
Yang, B., Hao, Z., & Jahng, D., 2017. “Advances in biodrying technologies for converting organic wastes into solid fuel.” Drying Technology, 35 (16), 1950-1969
DOI: https://doi.org/10.22146/ajche.75560
Article Metrics
Abstract views : 2441 | views : 4161Refbacks
- There are currently no refbacks.
ASEAN Journal of Chemical Engineering (print ISSN 1655-4418; online ISSN 2655-5409) is published by Chemical Engineering Department, Faculty of Engineering, Universitas Gadjah Mada.