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Tytuł artykułu

Analysis of Optimum Garbage Heaps Age on Recovery of Landfills Dominated by Organic Solid Waste

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Landfills in developing countries, like Indonesia are dominated by organic solid waste, with water content reaching 80%. It is impossible to manage them by incineration processes. Naturally, all organic material can decompose and produce methane gas, carbon, water, as well as leave blackish fine soil-like material, called compost. Therefore, the recovery of the landfills can be done by using landfill mining methods. However, the benefits, costs, and environmental impacts of landfill mining are highly dependent on landfills age, material characteristics, disposal systems, economic and social development of the community, and climate. The main objective of this study was to analyze the optimum age of garbage heaps to obtain the right time on the recovery of the landfills. Five excavation points were prepared at 4–5, 6–7, 8–9, 10–11, and > 12 years. Each excavated material was dried, separated, and grouped according to each component, and then weighed, tabulated, and shown as a percentage of excavated garbage composition. The result shows that landfill mining can be carried out at a garbage heap aged 8–9 years in which compost landfill mining has obtained at 50%. Other discussions concern the existence of organic and nonorganic components as well as the usage of plastic bags and nappies indicating the lifestyle changes of the people.
Rocznik
Strony
91--98
Opis fizyczny
Bibliogr. 32 poz., rys., tab.
Twórcy
  • Doctoral Program Environmental Sciences of Diponegoro University, Semarang 50241, Indonesia
  • Industrial Engineering Department of Teuku Umar University, Meulaboh 23681, Indonesia
  • Doctoral Program Environmental Sciences of Diponegoro University, Semarang 50241, Indonesia
  • Environmental Engineering Department of Diponegoro University, Semarang 50275, Indonesia
  • Doctoral Program Environmental Sciences of Diponegoro University, Semarang 50241, Indonesia
  • Chemical Engineering Department of Diponegoro University, Semarang 50275, Indonesia
Bibliografia
  • 1. Akhtar H., Soetjipto H.P. 2014. Peran Sikap Dalam Memediasi Pengaruh Pengetahuan Terhadap Perilaku Minimisasi Sampah Pada Masyarakat Terban, Yogyakarta (The Role of Attitude to Mediate The Effect of Knowledge on People’s Waste Minimization Behaviour in Terban, Yogyakarta). Jurnal Manusia dan Lingkungan (Human And Environmental Journal), 21(3), 386–392.
  • 2. Barlaz M.A., Green R.B., Chanton J.P., Goldsmith C.D., Hater G.R. 2004. Evaluation of a biologically active cover for mitigation of landfill gas emissions. Environmental Science and Technology, 38(18), 4891–4899.
  • 3. Beaven R.P., Knox K., Gronow J.R., Hjelmar O., Greedy D., Scharff H. 2014. A new economic instrument for financing accelerated landfill aftercare. Waste Management, 34(7), 1191–1198.
  • 4. Burlakovs J., Kriipsalu M., Klavins M., Bhatnagar A., Vincevica-Gaile Z., Stenis J., Jani Y., Mykhaylenko V., Denafas G., Turkadze T., Hogland M., Rudovica V., Kaczala F., Rosendal R.M., Hogland W. 2016. Paradigms on landfill mining: From dump site scavenging to ecosystem services revitalization. Resources, Conservation and Recycling, 123, 73–84.
  • 5. Chang N.-B., Davila E. 2007. Minimax regret optimization analysis for a regional solid waste management system. Waste Management, 27(6), 820–832.
  • 6. Coordinating Ministry for Economic Affairs Republic of Indonesia 2013. Executive Summary: Studies on Sanitary Landfill Policy in Indonesia 2013, Jakarta Indonesia.
  • 7. Danthurebandara M., Passel S. V, Vanderreydt I., Acker K. Van 2015. Assessment of environmental and economic feasibility of Enhanced Landfill Mining. Waste Management, 45, 434–447.
  • 8. Darwati S. 2009. Potensi Rehabilitasi Tempat Pemerosesan Akhir Sampah Melalui Penambangan Lahan Urug (Potential Rehabilitation of landfill through Landfill Mining). Jurnal Pemukiman (Settlements Journal), 4(1), 29–37.
  • 9. Fehr M. 2006. A successful pilot project of decentralized household waste management in Brazil. The Environmentalist, 26(1), 21–29.
  • 10. Fisher H., Findlay D.M. 1995. Exploring the economics of mining landfills. Wolrd Wastes 38, 38(7), 11–15.
  • 11. Frändegård P., Krook J., Svensson N. 2015. Integrating remediation and resource recovery: On the economic conditions of landfill mining. Waste Management, 42, 137–147.
  • 12. Frändegård P., Krook J., Svensson N., Eklund M. 2013. A novel approach for environmental evaluation of landfill mining. Journal of Cleaner Production, 55, 24–34.
  • 13. Hadi S.P. 2001. Dimensi Lingkungan Perencanaan Pembangunan (Dimensions of the Development Planning Environment), Yogyakarta Indonesia: Gadjah Mada University Press.
  • 14. Hadisumarno D. 1992. Buku Panduan Teknik Pembuatan Kompos dari Sampah: Teori dan Aplikasi (Handbook of Compost Making Techniques from Waste: Theory and Application), Jakarta Indonesia: Center for Policy and Implemantation Studies (CPIS).
  • 15. Hogland W. 2002. Remediation of an old landsfill site: soil analysis, leachate qualityand gas production. Environmental Science and Pollution Research, 9(1), 49–54.
  • 16. Jones P.T., Geysen D., Tielemans Y., Passel S. V, Pontikes Y., Blanpain B., Quaghebeur M., Hoekstra N. 2013. Enhanced Landfill Mining in view of multiple resource recovery: A critical review. Journal of Cleaner Production, 55, 45–55.
  • 17. Krook J. 2010. Urban and landfill mining: emerging global perspectives and approaches. Journal of Cleaner Production, 18, 1772–1773.
  • 18. Krook J., Baas L. 2013. Getting serious about mining the technosphere: A review of recent landfill mining and urban mining research. Journal of Cleaner Production, 55, 1–9.
  • 19. Krook J., Svensson N., Eklund M. 2012. Landfill mining: A critical review of two decades of research. Waste Management, 32(3), 513–520.
  • 20. Kurniasari O., Damanhuri E., Padmi T., Kardena E. 2014. Tanah Penutup Landfill Mengunakan Sampah Lama Sebagai Media Oksidasi Metana Uuntuk Mengurangi Emisi Gas Metana (Soil cover landfill use old solid waste as methane oxidation media to reduce methane gas emissions). Jurnal Bumi Lestari (Journal of Sustainable Earth), 14(1), 46–52.
  • 21. Mahyudin R.P. 2017. Kajian Permasalahan Pengelolaan Sampah dan Dampak Lingkungan di TPA (Study of waste problems and environmental impacts in landfill). Jukung Jurnal Tehnik Lingkugan (Jukung Environmental Engineering Journal), 3(1), 66–74.
  • 22. Massarutto A. 2015. Economic aspects of thermal treatment of solid waste in a sustainable WM system. Waste Management, 37, 45–57.
  • 23. Mor S., Ravindra K., Visscher A. De, Dahiya R.P., Chandra A. 2006. Municipal solid waste characterization and its assessment for potential methane generation: A case study. Science of the Total Environment, 371, 1–10.
  • 24. Passel S. van, Dubois M., Eyckmans J., Gheldere S. de, Ang F., Jones P.T., Acker K. van 2013. The economics of enhanced landfill mining: Private and societal performance drivers. Journal of Cleaner Production, 55, 92–102.
  • 25. Quaghebeur M., Laenen B., Geysen D., Nielsen P., Pontikes Y., Gerven T. V, Spooren J. 2013. Characterization of landfilled materials: Screening of the enhanced landfill mining potential. Journal of Cleaner Production, 55, 72–83.
  • 26. Rosendal R. 2015. The economics of landfill mining shredder residue: focus on the aftercare. In: Conference: Proceedings Sardinia 2015, 15th International Waste Management and Landfill Symposium, At S. Margherita di Pula, Cagliari, Italy. Cagliari, Italia, pp. 5–9.
  • 27. Scheinberg A. 2010. The Need for the Private Sector in a Zero Waste, 3-R, and Circular Economy Materials Management Strategy. Discussion paper for the CSD 18/19 Intercessional., Tokyo, Japan.
  • 28. Silas J., Ratna S H., Setyawan W., Dewanti W., Hartatik, Firmaningtyas S. 2014. Revitalisasi Eks TPA Keputih Menjadi Taman Kota Untuk Mendukung Surabaya Menuju Eco-City (Revitalizing of the Keputih Landfill to be a city park to support Surabaya towards Eco-City). In: Simposium Nasional RAPI XIII-2014 FT UMS. UMS, pp. A1–A8.
  • 29. Sormunen K., Ettala M., Rintala J. 2008. Detailed internal characterisation of two Finnish landfills by waste sampling. Waste Management, 28(1), 151–163.
  • 30. Tanigaki N., Ishida Y., Osada M. 2015. A case-study of landfill minimization and material recovery via waste co-gasification in a new waste management scheme. Waste Management, 37, 137–146.
  • 31. Wagner T.P., Raymond T. 2015. Landfill mining: Case study of a successful metals recovery project. Waste Management, 45, 448–457.
  • 32. Zee D.J. van der, Achterkamp M.C., Visser B.J. de 2004. Assessing the market opportunities of landfill mining. Waste Management, 24(8), 795–804.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-27deb72e-0315-42db-888f-6cc2c003d2f4
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