SISTEM INFORMASI EMISI GAS RUMAH KACA TPA SAMPAH TELAGA PUNGGUR
DOI:
https://doi.org/10.33884/jif.v7i02.1386Keywords:
Sistem Informasi, Landfill Gas, Gaussian Plume, SimulationAbstract
Telaga Punggur Solid Waste Landfill has been operating since 1997 with an area of around 47 Ha. This landfill has actually replaced the landfill with a landfill control system, but in reality the field that is running is an open dumping system. To find out the amount of air pollution requires initial knowledge about pollutants that are very important for the anticipation, prevention and regulation of air emissions. One way to find out the emission distribution pattern is by using a comparison system using the online Gaussian Plume. Emissions by methane must be known because their effects can be felt 20-30 times greater than carbon dioxide. The results of this simulation can be used as a basis for making green belts in the landfill area. This regulates in SNI 03-3241-1994 on procedures for selecting the location of the final place of waste and PU Ministerial Regulation No. 19 of 2012 concerning guidelines for spatial planning of areas around the final place of waste requiring green belt areas in the landfill
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[3] IPCC, "Climate Change 2014; Mitigation of Climate Change. Cambridge," University Press, Cambridge, 2014.
[4] R. Bian, D. Xin and C. Xiaoli, "Methane emissions from landfill: influence of vegetation and weather conditions," Environmental Technology, pp. 1-9, 2018.
[5] E. Rada, M. Ragazzi, P. Stefani, M. Schiavon and V. Torretta, "Modelling the Potential Biogas Productivity Range from a MSW," Sustainability, vol. 7, pp. 482-495, 2015.
[6] Y. Sun, Y. D., R. Li, T. Yang and S. Liu, "Assessing the performance of gas collection systems in select Chinese landfills according to the LandGEM model: drawbacks and potential direction," Environ Technol., vol. 36, p. 2912–2918, 2015.
[7] G. Tchobanoglous, H. Theisen and S. Vigil, Integrated Solidwaste Management., New York: McGraw-Hill, 1993.
[8] SNI03-3241-1994, Tata Cara Pemilihan Lokasi TPA Sampah, Jakarta: Direktur Penataan Ruang Nasional, 1994.
[9] KementrianPU, Peraturan Menteri Pekerjaan Umum Nomor 19/PRT/M/2012 Tentang pedoman penataan ruang kawasan sekitar tempat pemrosesan akhir sampah mewajibkan adanya area green belt pada TPA, Jakarta, 2012.
[10] I. Wibowo, J. Hemana and A. Assomadi, "Analisis spasial dispersi karbon dioksida TPA Talangagung menggunakan model gaussian dan aplikasi sistem informasi geografis," Waste Management II, pp. 281-292, 2014.
[11] H. Rahmi, A. Sasmita and E. Yenie, "Analisis Produksi Gas Metana (CH4) dan Karbon Dioksida (CO2) dari Tempat Pembuangan Akhir Kota Pekanbaru," Jom FTEKNIK, vol. 4, pp. 1-8, 2017.
[12] M. Aribiyanto, Pemetaan tingkat kesadahan air sumur di wilayah Surabaya Barat berbasis aplikasi sistem informasi grafis (GIS), Surabaya: Universitas Airlangga, 2016.
[13] L. Handayani, I. Piarsa and K. Wibawa, "Sistem Informasi Geografis Pemetaan Jalan Desa Berbasis Web," LONTAR KOMPUTER, vol. 6, pp. 128-137, 2015.
[14] F. Matacchiera, C. Manes, R. Beaven, T. Rees-White, F. Boano, J. Mønster and C. Scheutz, "AERMOD as a Gaussian dispersion model for planning tracer gas dispersion tests for landfill methane emission quantification," Waste Management, pp. 1-13, 2018.
[15] M. Mohammed, "Air Dispersion Model for Prediction Fugitive Landfill Gaseous Emission Impact in Ambient Atmosphere," Environmental and Ecological Engineering, vol. 10, pp. 810-816, 2016.
[16] R. Chandrappa and D. Das, "Solid waste management," Verlag Berlin Heidelberg, 2012.
[17] E. Damanhuri, Diktat Kuliah TL 3104 Pengelolaan Sampah, Bandung: ITB Bandung, 2010.
[18] S. Muhaimin and A. Suratman, "Air Pollution Simulation From Cirebon Power Plant Activity," EKSAKTA, vol. 16, pp. 14-22, 2015.
[19] D. Witono, Tesis: Karakteristik Pencemaran Udara di PLTGU UJB-I Tambak Lorok Semarang (Studi Kasus Pencemaran SO2 dan Partikel Debu), Semarang: Universitas Diponegoro, 2003.
[20] T. Nauli, "Pola Sebaran Polutan Dari Cerobong Asap," in Prosiding Pertemuan dan Presentasi Ilimiah Penelitian Dasar Ilmu Pengetahuan dan Teknologi Nuklir P3TM-BATAN, Yogyakarta, 2002.
[21] N. Arystanbekova, "Application of Gaussian plume models for air pollution simulation at instantaneous emissions," Mathematics and Computers in Simulation - Special issue: Mathematical modeling of ecological systems , vol. 67, no. 4-5, pp. 451 - 458 , 2004.
[22] F. Pasquill, "The Estimation of the Dispersion of Wind," Borne Material, Met. Mag, vol. 90:1063, pp. 33-49., 1961.
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Published
2019-10-02
How to Cite
Yodi, Y. (2019). SISTEM INFORMASI EMISI GAS RUMAH KACA TPA SAMPAH TELAGA PUNGGUR. JURNAL ILMIAH INFORMATIKA, 7(02), 120–126. https://doi.org/10.33884/jif.v7i02.1386
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