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The leakage of temple waste in the environment surrounding the temples has made the image of temples not only a cultural icon but also a contributor to landfill waste on the island. About 292.36 kg of temple waste is generated from a single ceremonial at Griya Anyar Tanah Kilap Temple. The temple waste consists of 90,16% of organic waste (food, leaf and discarded flower) that is easily biodegraded. This research aimed to examine the temple waste to be recycled into Refuse Derived Fuel (RDF). Leaf and flower waste are used as RDF material using two different drying methods, namely natural drying and pyrolysis. The results showed that the pyrolysis RDF has a similar caloric value to the natural drying RDF with 3311.7 kcal/kg and 2912.7 kcal/kg, respectively. According to the electrical power potential, pyrolysis RDF has 3856.19 kWh/tons, meanwhile natural drying RDF has 3391.59 kWh/tons. The pyrolysis RDF has less organic content and quite higher ash content than the natural drying RDF, making it better quality and appropriate to be applied in the community for a long-term sustainable temple waste recycling.
Czasopismo
Rocznik
Tom
Strony
288--296
Opis fizyczny
Bibliogr. 42 poz., rys., tab.
Twórcy
autor
- Regional Development Planning and Environmental Management, Postgraduate Program, Universitas Mahasaraswati Denpasar, Denpasar, Bali, Indonesia
- Environmental Engineering Department, Faculty of Engineering, Universitas Mahasaraswati Denpasar, Denpasar, Bali, Indonesia
- Environmental Engineering Department, Faculty of Engineering, Universitas Mahasaraswati Denpasar, Denpasar, Bali, Indonesia
autor
- Environmental Engineering Department, Faculty of Engineering, Universitas Mahasaraswati Denpasar, Denpasar, Bali, Indonesia
autor
- Centre for Environmental Sustainability and Water Security (IPASA), Research Institute for Sustainable Environment (RISE), Universiti Teknologi Malaysia, Johor Bahru, Malaysia
Bibliografia
- 1. Martana SP. 2019. Pura as a fortress in balinese religious traditional architecture building. IOP Conf Ser Mater Sci Eng. 662.
- 2. Pringle R. 2004. A short history of Bali: Indonesia’s Hindu realm. Choice Reviews Online. 42:42-1103a-42–1103a.
- 3. Yadav I, Juneja SK, Chauhan S. 2015. Temple waste utilization and management: A review. International Journal of Engineering Technology Science and Research. 2:14–9.
- 4. Wijaya IMW, Ranwella KBIS, Revollo EM, Widhiasih LKS, Putra PED, Junanta PP. 2021. Recycling Temple Waste into Organic Incense as Temple Environment Preservation in Bali Island. Jurnal Ilmu Lingkungan. 19:365–71.
- 5. Ferronato N, Torretta V. 2019. Waste mismanagement in developing countries: A review of global issues. Int J Environ Res Public Health. 16.
- 6. Kuniyal JC, Jain AP, Shannigrahi AS. 2003. Solid waste management in Indian Himalayan tourists’ treks: A case study in and around the Valley of Flowers and Hemkund Sahib. Waste Management. 23:807–16.
- 7. Dutta S, Kumar MS. 2021. Potential of value-added chemicals extracted from floral waste: A review. J Clean Prod. Elsevier Ltd; 294:126280.
- 8. Wijaya IMW. 2014. Design of solid waste management facilities of eks pelabuhan buleleng beach resort, Buleleng regency, Surabaya. Institut Teknologi Sepuluh Nopember Surabaya.
- 9. Singh A, Jain A, Sarma BK, Abhilash PC, Singh HB. 2013. Solid waste management of temple floral offerings by vermicomposting using Eisenia fetida. Waste Management. 33:1113–8.
- 10. Soedjono ES, Fitriani N, Rahman R, Wijaya, IMW. 2018. Achieving water sensitive city concept through musrenbang mechanism in Surabaya City, Indonesia. International Journal of GEOMATE. 15:92–7.
- 11. Wijaya IMW, Soedjono ES. 2018. Domestic wastewater in Indonesia: Challenge in the future related to nitrogen content. International Journal of GEOMATE. 15:32–41.
- 12. Wijaya, I Made Wahyu. Soedjono ES. 2018. Physicochemical characteristic of municipal wastewater in tropical area: Case study of Surabaya City, Indonesia. IOP Conf Series: Earth and Environmental Science. 135.
- 13. Srivastav AL, Kumar A. 2021. An endeavor to achieve sustainable development goals through floral waste management: A short review. J Clean Prod. Elsevier Ltd; 283:124669.
- 14. Sumantra K, Wijaya IMW. 2021. Environment carrying capacity of Pandawa Beach ecosystem and how to optimize it to support sustainable development. IOP Conf Ser Earth Environ Sci. 896:012065.
- 15. Wijaya IMWW, Indunil KB, Ranwella S, Revollo EM, Ketut L, Widhiasih S, et al. 2021. Recycling temple waste into organic incense as temple environment preservation in bali island. 19:365–71.
- 16. Singh P, Borthakur A, Singh R, Awasthi Sh, Srivastava P, Tiwary D. 2017. Utilization of temple floral waste for extraction of valuable products: A close loop approach towards environmental sustainability and waste management. Pollution. 3:39–45.
- 17. Singh P, Singh R, Borthakur A, Madhav S, Singh VK, Tiwary D, et al. 2018. Exploring temple floral refuse for biochar production as a closed loop perspective for environmental management. Waste Management. Elsevier Ltd; 77:78–86.
- 18. Shirvanimoghaddam K, Czech B, Tyszczuk-Rotko K, Kończak M, Fakhrhoseini SM, Yadav R, et al. 2021. Sustainable synthesis of rose flower-like magnetic biochar from tea waste for environmental applications. J Adv Res.
- 19. Demirbas A, Ahmad W, Alamoudi R, Sheikh M. 2016. Sustainable charcoal production from biomass. Energy Sources, Part A: Recovery, Utilization and Environmental Effects. Taylor and Francis Inc. p. 1882–9.
- 20. Chavando JAM, Silva VB, Tarelho LAC, Cardoso JS, Eusébio D. 2022. Snapshot review of refuse derived fuels. Util Policy. 74.
- 21. BPS Kota Denpasar. 2022. Denpasar Municipality in Figures 2022. Denpasar.
- 22. Kimambo ON, Subramanian P. 2014. Refuse derived fuel (rdf) from municipal solid waste rejects: A case for coimbatore. Nepal Journals Online (Nep-JOL) [Internet]. 3.
- 23. Badan Standarisasi Nasional. 1994. Metode pengambilan dan pengukuran contoh timbulan dan komposisi sampah perkotaan. Badan Standardisasi Nasional. 16.
- 24. Awulu JO, Audu J. 2018. Effects of briquettes and binders on combustible properties of selected biodegradable materials modeling and optimization of optical and electrical properties of some sorghum and cow pea varieties. View project. Available from: https://www.researchgate.net/publication/323114756
- 25. Waghmode MS, Gunjal AB, Nawani NN, Patil NN. 2018. Management of floral waste by conversion to value-added products and their other applications. Waste Biomass Valorization. Springer Netherlands. 9:33–43.
- 26. Sugianti IGAN, Trihadiningrum Y. 2008. Pengelolaan sampah di kawasan pura besakih, kecamatan rendang, kabupaten karangasem dengan sistem tpst (tempat pengolahan sampah terpadu). Prosiding Seminar Nasional Manajemen Teknologi VII.
- 27. Jain N. 2016. Waste management of temple floral offerings by vermicomposting and its effect on soil and plant growth. International Journal of Environmental & Agriculture Research, 2, 89–94.
- 28. Samadhiya H, Pradesh M, Pradesh M. 2017. Disposal and management of temple waste: Current status and possibility of vermicomposting. 2:359–66.
- 29. Khammee P, Unpaprom Y, Buochareon S, Ramaraj R. 2019. Potential of bioethanol production from marigold temple waste flowers potential of bioethanol production from marigold temple waste flowers.
- 30. Bogale W. 2017. Preparation of charcoal using flower waste. Journal of Power and Energy Engineering. 05:1–10.
- 31. Singh P, Borthakur A, Singh R, Awasthi S, Srivastava P, Mishra PK. 2017. Utilization of temple floral waste for extraction of valuable products: A close loop approach towards environmental sustainability and waste management. Pollution. 3:39–45.
- 32. Anvitha V, Sushmitha MB, Rajeev RB, Mathew BB. 2015. The importance, extraction and usage of some floral wastes. 2:1–6.
- 33. Himawanto Da, Dhewangga P.Rd, Saptoadi H, Rohmat Ta, Indarto I. 2012. Pengolahan sampah kota terseleksi menjadi refused derived fuel sebagai bahan bakar padat alternatif. Jurnal Teknik Industri. 11:127.
- 34. Ganesh T, Vignesh P. 2013. Refuse derived fuel to electricity. International Journal of Engineering Research & Technology. 2:2930–2.
- 35. Sinurat E. 2011. Studi Pemanfaatan briket kulit jambu mete dan tongkol jagung sebagai bahan bakar alternatif. Makassar
- 36. Rania MF, Lesmana IGE, Maulana E. 2019. Analisis potensi refuse derived fuel (RDF) dari Sampah pada Tempat Pembuangan Akhir (TPA) di Kabupaten. Sintek Jurnal: Jurnal Ilmiah Teknik Mesin. 13:51–9.
- 37. Patabang D. 2012. Karakteristik termal briket arang sekam padi dengan variasi bahan perekat. Jurnal Mekanikal. 3:286–92.
- 38. Paramita W, Hartono DM, Soesilo TEB. 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 Conf Ser Earth Environ Sci. 159.
- 39. Widyatmoko H, Sintorini MM, Suswantoro E, Sinaga E, Aliyah N. 2021. Potential of refused derived fuel in Jakarta. IOP Conf Ser Earth Environ Sci. 737.
- 40. Menteri Energi Dan Sumber Daya Mineral P. 2006. Pedoman pembuatan dan pemanfaatan briket batubara dan bahan bakar padat berbasis batubara T. Memtem Energi Dam Sumber Daya Mimeml Republik Indonesia. 2006;2001.
- 41. Rezaei H, Yazdanpanah F, Lim CJ, Sokhansanj S. 2020. Pelletization properties of refuse-derived fuel - Effects of particle size and moisture content. Fuel Processing Technology. Elsevier; 205:106437.
- 42. Shangdiar S, Lin YC, Cheng PC, Chou FC, Wu WD. 2021. Development of biochar from the refuse derived fuel (RDF) through organic / inorganic sludge mixed with rice straw and coconut shell. Energy. Elsevier Ltd. 215:119151.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-08945b78-1f60-438f-954e-0dd6fc216b74