ANALISIS MODEL SIMULASI DINAMIKA SISTEM BANK SAMPAH INDUK CIMAHI TERHADAP PROGRAM ZERO WASTE CITY 2037(TA 16.17.21.62)

Maharani, Gita riski and Siswanto, Budi Nur and Nurdiansyah, Yodi (2021) ANALISIS MODEL SIMULASI DINAMIKA SISTEM BANK SAMPAH INDUK CIMAHI TERHADAP PROGRAM ZERO WASTE CITY 2037(TA 16.17.21.62). Diploma thesis, STIMLOG.

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Abstract

ABSTRACT This final project discusses the population growth rate in Cimahi City which increases every year and is influenced by the population growth rate so that it can increase the number of waste generation in Cimahi City. Efforts are being made to achieve Cimahi Zero Waste City 2037, namely the creation of the Cimahi Main Waste Bank program (Bank SAMICI) by DLH Cimahi City. Bank SAMICI's performance achievements in the Cimahi Zero Waste City 2037 program can be seen from the existing 2017 – 2020 data and processing using the system dynamics method and Anylogic application simulation. The results of the existing simulation model in 2037, the total population of Cimahi City is 649,577 people and produces 130,175,20 tons of waste. DLH recorded 75% of waste generation, divided into 58,578.84 tons of organic waste and 38,662.03 tons of inorganic waste. Based on the simulation results of existing data, the amount of inorganic waste disposed of in the TPA is 36,156.10 tons in 2037. The performance of inorganic waste collection at Bank SAMICI is 2,505.94 tons. The existing processing performance is 99.7%, so Bank SAMICI can process 2,498.42 tons of waste and produce a residue of 7.52 tons. From the results of the existing simulation model, Bank SAMICI has not been able to achieve the Cimahi Zero Waste City 2037 program. Scenario 1 is proposed with an effort to increase the number of customers per month by 92 customers so that 38,353.72 tons of inorganic can be taken. In scenario 2, adding 15 units of Bank SAMICI can collect 37,589.04 tons of waste. Scenario 3 is the addition of 2 large customers, so they can take inorganic waste as much as 38,620.46 tons. Scenario 4, which is a combined scenario between scenarios 1 and 3, can collect 38,661.25 tons of inorganic waste. Based on the selection of the four scenarios, the output of the scenario that is closest to the achievement of the Cimahi Zero Waste City 2037 program is scenario 4 (combined scenario). Keywords: Inorganic Waste Processing, System Dynamics, Sustainable.ABSTRAK Tugas akhir ini membahas angka pertumbuhan penduduk di Kota Cimahi yang meningkat setiap tahun dan dipengaruhi oleh laju pertumbuhan penduduk sehingga dapat meningkatkan angka timbulan sampah di Kota Cimahi. Upaya yang dilakukan untuk mencapai Cimahi Zero Waste City 2037 yaitu dibuatnya program Bank Sampah Induk Cimahi (Bank SAMICI) oleh DLH Kota Cimahi. Capaian kinerja Bank SAMICI terhadap program Cimahi Zero Waste City 2037 dapat dilihat dari data eksisting tahun 2017 – 2020 dan pengolahan menggunakan metode dinamika sistem dan simulasi aplikasi Anylogic. Hasil dari model simulasi eksisting tahun 2037 total penduduk Kota Cimahi sebanyak 649.577 orang dan menghasilkan timbulan sampah sebanyak 130.175,20 ton. Timbulan sampah tercatat oleh DLH sebesar 75% terbagi atas sampah jenis organik sebesar 58.578,84 ton dan anorganik sebesar 38.662,03 ton. Berdasarkan hasil simulasi data eksisting, jumlah sampah anorganik dibuang ke TPA yaitu sebesar 36.156,10 ton pada tahun 2037. Kinerja pengambilan sampah anorganik pada Bank SAMICI yaitu 2.505,94 ton. Kinerja pengolahan eksisting sebesar 99,7% maka Bank SAMICI dapat mengolah sampah sebesar 2.498,42 ton dan menghasilkan residu sebesar 7,52 ton. Dari hasil model simulasi eksisting tersebut Bank SAMICI belum dapat mencapai program Cimahi Zero Waste City 2037. Dilakukan usulan skenario 1 dengan upaya penambahan jumlah nasabah per bulan sebanyak 92 nasabah maka dapat mengambil jenis anorganik sebanyak 38.353,72 ton. Pada skenario 2 dengan menambahkan unit Bank SAMICI menjadi 15 unit dapat mengambil sampah sebanyak 37.589,04 ton. Skenario 3 yaitu penambahan nasabah besar sebanyak 2 maka dapat mengambil sampah anorganik yaitu sebanyak 38.620,46 ton. Skenario 4 yaitu skenario gabungan antara skenario 1 dan 3 dapat mengambil sampah jenis anorganik sebesar 38.661,25 ton. Berdasarkan pemilihan atas keempat skenario tersebut, output skenario yang paling mendekati terhadap pencapaian program Cimahi Zero Waste City 2037 yaitu pada skenario 4 (skenario gabungan). Kata Kunci : Pengolahan Sampah Jenis Anorganik, Dinamika sistem, Berkelanjutan.

Item Type: Thesis (Diploma)
Subjects: H Social Sciences > HD Industries. Land use. Labor
H Social Sciences > HD Industries. Land use. Labor > HD28 Management. Industrial Management
Depositing User: Unnamed user with email [email protected]
Date Deposited: 28 Mar 2022 06:52
Last Modified: 28 Mar 2022 06:52
URI: http://eprint.ulbi.ac.id/id/eprint/472

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