Potensi Material Sampah Combustible pada Zona II TPA Jatibarang Semarang sebagai Bahan Baku RDF (Refuse Derived Fuel)

Sembiring, Lucy Amena; Priyambada, Ika Bagus; Samudro, Ganjar; Lokahita, Baskoro; Wardhana, Irawan Wisnu; Hadiwidodo, Mochtar; Syafrudin, Syafrudin

doi:10.22441/jtm.v7i1.2240

Cited by 4 publications

(4 citation statements)

References 3 publications

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“…Calorific value of scenario 1 has been identified by previous research [12,13,14] which is 5,500 -6,070 Kcal/Kg of waste. Calorific value of scenario 2 and 3 will be calculated through conversion of calorie content in each type of waste.…”

Section: Calculation Of Calorific Valuementioning

confidence: 94%

“…Previous research in Indonesia and Asian countries show that municipal waste is potential for RDF production. In Semarang landfill, municipal waste has calorific value between 5,500 to 6,070 kcal/kg without recycling [10,11,12,13,14]. No research has been conducted in Indonesia to see energy potential while the municipal waste has been taken for recycling.…”

Section: Introductionmentioning

confidence: 99%

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A Methodological Approach to Assess the Potential of Non-Recycled Waste for Refuse Derived Fuels Material

Nurhadi

Prianto

2020

E3S Web Conf.

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Modernization of waste processing through Waste-to-Energy has been a new trend to solve waste management and energy scarcity. This model however it may raise a conflict with recycling activities. This article establishes a methodological approach to assess Non-Recycled Waste for Refuse Derived Fuels materials. The approach is simulated by using calorific value of waste from Semarang Landfill which has calorific value 5,500 to 6,070 kcal/kg and waste composition of Banjarmasin Landfill which has been classified according to recycling perspective. The simulation shows that a low recycling rate (25% plastic and paper taken for recycling) will produce 3,882 kcal/Kg while a high recycling rate (50%) will produce 3,793 kcal/Kg. This simulation successfully calculates that non-recycled waste materials are still potential for RDFs materials.

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Section: Calculation Of Calorific Valuementioning

confidence: 94%

Section: Introductionmentioning

confidence: 99%

A Methodological Approach to Assess the Potential of Non-Recycled Waste for Refuse Derived Fuels Material

Nurhadi

Prianto

2020

E3S Web Conf.

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“…Sedangkan 25,81% sisanya merupakan logam, kaca dan jenis sampah lainnya (KLHK RI, 2018). Sampah combustible TPA Jatibarang memiliki potensi sebagai bahan baku RDF salah satu jenis bahan bakar alternatif (Sembiring et al, 2018). Pengolahan sampah perkotaan dengan konsep recoveri energi dapat menjadi alternatif untuk memanfaatkan energi yang terkandung di dalam sampah.…”

Section: Pendahuluanunclassified

Teknologi Biodrying untuk Meningkatkan Nilai Kalor Sampah dan Proyeksinya sebagai Bahan Bakar Alternatif pada Tahun 2028

2021

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Timbulan municipal solid waste (MSW) akibat industrialisasi, urbanisasi dan pertumbuhan penduduk telah menimbulkan masalah tentang kerusakan lingkungan dan bahaya kesehatan manusia, terutama di negara-negara berkembang. MSW yang mudah terbakar memiliki kandungan proksimat yang dapat dimanfaatkan sebagai energi alternatif melalui recovery energi dengan metode bio-drying. Penelitian ini bertujuan untuk mengolah MSW menggunakan biodrying dan menghitung potensi MSW sebagai bahan bakar alternative. MSW dari Jatibarang landfill diolah dalam reaktor bio-drying dengan debit aerasi sebesar 6 L/m selama 21 hari. Hasil penelitian menunjukkan suhu puncak mencapai 58⁰C pada hari pertama. Kadar air mengalami penurunan hingga 44,65% pada hari ke-21. Nilai kalor mengalami kenaikan 28% dengan nilai tertinggi sebesar 6.049 kal/gr. Produk biodrying dari MSW Jatibarang landfill memiliki potensi 138% sebagai bahan bakar industry. Potensi penggunaan produk biodrying 100% tercapai pada tahun 2030 bulan ke-6 sebesar 638.367 ton.ABSTRACTMunicipal solid waste (MSW) generated as a result of industrialization, urbanization, and population growth has created problems of environmental damage and human health hazards, especially in developing countries. Combustible MSW contains proximate which can be utilized as alternative energy through energy recovery by bio-drying method. This study aims to process MSW using biodrying and calculate the potential of MSW as an alternative fuel. MSW from TPA Jatibarang is processed in a bio-drying reactor with an aeration flowrate of 6 L/m for 21 days. The results showed that the peak temperature reached 58⁰C on the first day. The water content decreased to 44.65% on the 21st day. The calorific value increased by 28% with the highest value of 6,049 cal/gr. Biodrying products from MSW Jatibarang landfill have 138% potential as industrial fuel. The potential use of 100% biodrying products is achieved in 2030 in the 6th month of 638,367 tons.

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“…The area of the Jatibarang landfill is divided into several areas consisting of 276,470 m 2 of waste area, 46,018 m 2 of cover land, 46,018 m 2 of green belt area, 46,018 m 2 of leachate ponds, and complementary infrastructure of 46,018 m 2 . The composition of waste in the Jatibarang landfill is ±50% consisting of plastic waste, wood, tissue, textiles, and other waste [2]. If the addition of waste occurs every day without being accompanied by the final processing of waste, this can cause the capacity of the landfill to decrease, so that the landfill is no longer able to accommodate waste.…”

Section: Introductionmentioning

confidence: 99%

Study of Waste Management at the Jatibarang Landfill, Semarang City

Hasthi¹,

Budiati²,

Setiadi³

2023

Advances in Social Science, Education and Humanities Research

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The hundreds to thousands of tons of waste generated every day by Semarang City residents has resulted in an increase in waste generation at the landfill, including the Jatibarang landfill. This condition will continue to increase along with waste management that is not carried out in accordance with existing laws and regulations. Waste management must be carried out in a systematic, comprehensive, and sustainable manner, including its reduction and handling. This study aims to determine the extent to which waste management at the Jatibarang Landfill is implemented according to regulations related to waste management. This research generally conducts studies to compare actual conditions with existing policies. Jatibarang landfill, which is still implementing the Open Dumping system, has not been able to solve the problem of waste generation. Various efforts such as waste sorting activities, processing waste into fertilizer, the existence of a methane gas canteen, and a leachate processing pond that have been carried out to manage waste at the Jatibarang landfill have not fully shown maximum results. This causes various impacts, including the decline in environmental quality, pollution of the water quality of the Kreo River, and the decline in the health of humans and other living creatures. The results of this study indicate that the waste management process at the Jatibarang landfill has not fully implemented the Laws and Regulations concerning waste management.

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Potensi Material Sampah Combustible pada Zona II TPA Jatibarang Semarang sebagai Bahan Baku RDF (Refuse Derived Fuel)

Cited by 4 publications

References 3 publications

A Methodological Approach to Assess the Potential of Non-Recycled Waste for Refuse Derived Fuels Material

A Methodological Approach to Assess the Potential of Non-Recycled Waste for Refuse Derived Fuels Material

Teknologi Biodrying untuk Meningkatkan Nilai Kalor Sampah dan Proyeksinya sebagai Bahan Bakar Alternatif pada Tahun 2028

Study of Waste Management at the Jatibarang Landfill, Semarang City

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