SPATIAL INFORMATION MODEL FOR LOCATION ASSESSMENT OF TEMPORARY LANDFILL SITES (TLS) IN MADIUN CITY
DOI:
https://doi.org/10.11113/mjce.v27.15928Keywords:
Final landfill sites, temporary landfill sites, geographic information system, waste, zoningAbstract
Madiun city has an adequate waste infrastructure with final processing system using controlled landfill system. The data of waste transported to the final landfill in Final Landfill Sites (FLS) Winongo in Madiun reaches approximately 60% of the total existing generated waste. If this number is reviewed from the Millennium Development Goals targets by 70% in 2015, the number is still lacking. One of the influencing factors is the number and location of Temporary Landfill Sites (TLS) which are not in accordance with the requirements. It is important to identify the locations of TLS so they can be used optimally to increase the volume of waste transported to the FLS. The purpose of this study is to assess the TLS location in Madiun, both in terms of technical aspects and public opinion polling as TLS users using geographic information system tools. The analysis technique in this study used quantitative analysis performed to analyze the quantitative data related to the location of TLS and also qualitative analysis as a tool used to analyze a variety of information based on spatial analysis. By examining the feasibility of zoning pattern, it can be seen that the viable deployment zoning model with the dominant influence is a distance factor of TLS to the center of waste generation. It can be viewed from the fact that several TLS locations which are far away from the waste transport route are categorized as feasible and moderate. Based on the analysis, from the 36 TLS locations in Madiun, there are 12 TLS locations which belong to “not feasible†criteria, 12 TLS locations which belong to “moderate†criteria and 12 TLS locations which belong to “feasible†criteria.References
Anonim (1990), Procedures for the Management of Urban Waste, SNI.T 13-1990 F.
Anonim (1991), Procedures for the Management of Settlement Waste, SNI.T 12-1991-03.
Anonim (1994), Procedures for Management of Waste in Settlement, Revisi SNI 03-3242-1994.
Anonim (1999), Government Regulation Number 27 about Environmental Impact Analysis.
Anonim (2001), Decree of the Minister of Settlement and Regional Infrastructure Number 534/KPTS/M/2001 about Guidelines for Determination of Minimum Service Standards
for Spatial Planning, Housing and Settlement and Public Works.
Anonim (2005), Government Regulation Number 16 on the Development of Water Supply System.
Anonim (2006), Regulation of the Minister of Public Works Number: 21/PRT/M/2006 about the Policy and Strategy Development National Solid Waste Management System (KSNPSPP).
Anonim (2008), Regulation No. 18 about Waste Management.
Kodoatie, R.J. (2003), Introduction to Management Infrastructure, Yogyakarta, Pustaka Pelajar.
Kodoatie, R.J. (2004), Management and Engineering Infrastructure, Yogyakarta, Pustaka Pelajar.
Prahasta, E. (2005), Geographic Information System Basic Concepts, Bandung, Informatika.
Rohman, F.R. (2007), Performance Evaluation of Waste Infrastructure Management in Cirebon
City, Thesis of Civil Engineering Graduated Program, Diponegoro University, Semarang.
Sanitary (2012), Sanitary and Gardening Landscaping service of Madiun, Measurement of Capability and Capacity Waste Management in Madiun Pengukuran, Sanitary and Gardening Landscaping service of Madiun.