skip to main content

Decision Analysis of the Composting Unit at Pluit Emplacement, Jakarta Using the Open Bin, Windrow, and Static Pile Methods for Biodegradable Waste

*Mega Mutiara Sari  -  Universitas Pertamina, Indonesia
Takanobu Inoue  -  Toyohashi University of Technology, Japan
Regil Kentaurus Harryes  -  Indonesia Defense University, Indonesia
Kuriko Yokota  -  Toyohashi University of Technology, Japan
Iva Yenis Septiariva  -  Universitas Sebelas Maret, Indonesia
Sapta Suhardono  -  Universitas Sebelas Maret, Indonesia
Shigeru Kato  -  Toyohashi University of Technology, Japan
Suprihanto Notodarmojo  -  Institut Teknologi Bandung, Indonesia
Stacia Dea Prameswari  -  Universitas Pertamina, Indonesia
I Wayan Koko Suryawan orcid scopus  -  Universitas Pertamina, Indonesia

Citation Format:

Indonesian marine debris of aquatic waste in Jakarta is managed by the UPK of the Water Agency, one of which is the Pluit Employment. Several composting methods can be used and adapted to the available circumstances and needs. The composting process is carried out by utilizing the supply of oxygen, nutrients, water, and temperature control. This study aims to analyze the selection of alternative composting systems that can be carried out for planning the composting unit at Pluit Employment. Selection analysis was carried out using the Utility Theory and Compromise program methods. Alternative 1: This alternative uses a composting system using an open bin. Alternative 2 uses a simple windrow system with garbage piled up without heavy equipment during operation. Alternative 3 uses a composting system with a static pile system with a machine turning it over. In the composting method chosen, alternative 2. The distance between compost for workers' movement space, it can reach 1 m as in the TPS 3R Technical instructions, that because it does not use machines, the land used for machine movement is reduced. Limited land can be utilized for the amount of windrow so that the amount of processed waste can be more significant.

Fulltext View|Download
Keywords: Debris; open bin; windrow; static pile; decision analysis

Article Metrics:

Article Info
Section: Original Research Article
Language : EN
  1. Alinezhad, A., Khalili, J. 2019. New methods and applications in multiple attribute decision making (MADM), International Series in Operations Research and Management Science
  2. Ayilara, M.S., Olanrewaju, O.S., Babalola, O.O., Odeyemi, O. 2020. Waste Management through Composting: Challenges and Potentials. Sustainability
  3. Brown, N.J., Gilbert, J., Black, G., Rynk, R. 2022. Chapter 13 - Safety and health principles and practices for composting facilities∗. In: Rynk, R.B.T.-T.C.H. (Ed.). Academic Press, pp. 627–683
  4. Chen, M., Huang, Y., Liu, H., Xie, S., Abbas, F. 2019. Impact of different nitrogen source on the compost quality and greenhouse gas emissions during composting of garden waste. Process Saf. Environ. Prot. 124, 326–335
  5. Christensen, T.H., Damgaard, A., Levis, J., Zhao, Y., Björklund, A., Arena, U., Barlaz, M.A., Starostina, V., Boldrin, A., Astrup, T.F., Bisinella, V. 2020. Application of LCA modelling in integrated waste management. Waste Management. 118, 313–322
  6. Damanhuri, E., Padmi, T. 2015. Pengelolaan sampah terpadu edisi kedua. ITB, Bandung
  7. Damanhuri, E., Wahyu, I.M., Ramang, R., Padmi, T. 2009. Evaluation of municipal solid waste flow in the Bandung metropolitan area, Indonesia. Journal Material Cycles Waste Management, 11, 270–276
  8. Hadinata, N., 2018. Implementasi Metode Multi Attribute Utility Theory (MAUT) pada sistem pendukung keputusan dalam menentukan penerima kredit. Jurnal Sistem Informasi dan Komputer, 7, 87–92
  9. Hutagaol, I. 2019. Pengaruh frekuensi pembalikkan pada pembuatan kompos dari tandan kosong kelapa sawit dan azolla microphyla deengan pupuk organik aktif. Medan: Universitas Sumatera
  10. Kementerian Pekerjaan Umum dan Perumahan Rakyat Republik Indonesia. 2013. Public Works No.03/PRT/M/2013 concerning the Implementation of Waste Infrastructure and Facilities in the Handling of Household Waste and Types of Household Waste. Kementerian Pekerjaan Umum dan Perumahan Rakyat Republik Indonesia, DKI Jakarta
  11. Kementerian Pekerjaan Umum dan Perumahan Rakyat Republik Indonesia. 2014. Panduan Teknis TPS 3R. DKI Jakarta: Direktorat Jenderal Cipta Karya
  12. Külcü, R., Yaldiz, O., 2014. The composting of agricultural wastes and the new parameter for the assessment of the process. Ecological Engineering, 69, 220–225
  13. Kurnia, V.C., Sumiyati, S., Samudro, G. 2017. Pengaruh kadar air terhadap hasil pengomposan sampah organik dengan metode open windrow. Jurnal Teknik Mesin, 6, 58
  14. Lim, L.Y., Bong, C.P.C., Lee, C.T., Klemes, J.J., Sarmidi, M.R., Lim, J.S. 2017. Review on the current composting practices and the potential of improvement using two-stage composting. Chemical Engineering Transactions, 61, 1051-1056 SE-Research Articles
  15. Manna, M., Sahu, A., Patra, A., Khanna, S.S., Chaudhari, S.K., Sikka, A.K. 2015. Rapid composting technique ways to enhance soil organic carbon, productivity and soil health. ICAR-IISS Technical Folder
  16. Mehta, C.M., Sirari, K. 2018. Comparative study of aerobic and anaerobic composting for better understanding of organic waste management: Aminireview. Plant Archives, 18, 44–48
  17. Pasang, H., Moore, G.A., Sitorus, G., 2007. Neighbourhood-based waste management: A solution for solid waste problems in Jakarta, Indonesia. Waste Management, 27, 1924–1938
  18. Raksasat, R., Kiatkittipong, K., Kiatkittipong, W., Wong, C.Y., Lam, M.K., Ho, Y.C., Oh, W. Da, Suryawan, I.W.K., Lim, J.W., 2021. Blended sewage sludge–palm kernel expeller to enhance the palatability of black soldier fly larvae for biodiesel production. Processes 9, 1–13
  19. Rombel, A., Krasucka, P., Oleszczuk, P., 2022. Sustainable biochar-based soil fertilizers and amendments as a new trend in biochar research. Science Total Environment, 816, 151588
  20. Safira, R.H., Sari, M.M., Notodarmojo, S., Inoue, T., Harryes, R.K., 2021. Potential Utilization Analysis of River Waste in Jakarta, Indonesia. Geosfera Indones, 6, 157–172
  21. Sari, M.M., Inoue, T., Harryes, R.K., Suryawan, I.W.K., Yokota, K., 2022a. Potential of Recycle marine debris in pluit emplacement Jakarta to achieve sustainable reduction of marine waste generation. International Journal of Sustainable Development and Planning, 17, 119–125
  22. Sari, M.M., Inoue, T., Septiariva, I.Y., Suryawan, I.W.K., Kato, S., Harryes, R.K., Yokota, K., Notodarmojo, S., Suhardono, S., Ramadan, B.S., 2022b. Identification of face mask waste generation and processing in tourist areas with thermo-chemical process. Archives of Environmental Protection
  23. Septiariva, Sarwono, A., Suryawan, I.W.K., Ramadan, B.S., 2022. Municipal Infectious Waste during COVID-19 Pandemic: Trends, Impacts, and Management. International Journal of Public Health Science, 11
  24. Sesay, A.A., Lasaridi, K., Stentiford, E., Budd, T., 1997. Controlled Composting of Paper Pulp Sludge Using the Aerated Static Pile Method. Compost Science and Utilization, 5, 82–96
  25. Suryawan, I.W.K., Rahman, A., Lim, J., Helmy, Q., 2021. Environmental impact of municipal wastewater management based on analysis of life cycle assessment in Denpasar City. Desalination and Water Treatment, 244, 55–62
  26. Svendsen, M.B.S., Bushnell, P.G., Steffensen, J.F., 2016. Design and setup of intermittent-flow respirometry system for aquatic organisms. Journal of Fish Biology, 88, 26–50
  27. Wahyono, S., Sahwan, F.L., 2016. Analisa Biaya Mekanisasi Produksi Kompos Sistem Windrow. Jurnal Teknik Lingkungan, 11, 87–93
  28. World Bank, 2018. Indonesia Marine Debris Hotspot. World Bank
  29. Yang, Y., Wang, G., Li, G., Ma, R., Kong, Y., Yuan, J., 2021. Selection of sensitive seeds for evaluation of compost maturity with the seed germination index. Waste Management. 136, 238–243
  30. Yu, P.L., 1973. A class of solutions for group decision problems. Management Science. 19, 936–946
  31. Yuniwati, M., Padulemba, A., 2012. Optimasi kondisi proses pembuatan kompos dari sampah organik dengan cara fermentasi menggunakan EM4. Jurnal Teknologi (Sciences and Engineering)
  32. Zahra, N.L., Septiariva, I.Y., Sarwono, A., Qonitan, F.D., Sari, M.M., Gaina, P.C., Ummatin, K.K., Arifianti, Q.A.M.O., Faria, N., Lim, J.-W., Suhardono, S., Suryawan, I.W.K., 2022. Substitution Garden and Polyethylene Terephthalate (PET) plastic waste as refused derived fuel (RDF). International Journal of Renewable Energy Development, 11, 523–532

Last update:

  1. Open Bin Composter Method as An Alternative to Organic Waste Processing in Temanggung Regency

    M. A. Budihardjo, J. Junaidi, S. Sumiyati, Y. N. Octaviani. IOP Conference Series: Earth and Environmental Science, 1248 (1), 2023. doi: 10.1088/1755-1315/1248/1/012032

Last update: 2024-02-28 16:24:14

No citation recorded.