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Study of the Effect of Adding Eco-Enzyme to the Process of Decomposing Organic Waste on the Quality of Compost, Leachate, and Methane Gas Production

*Anik Sarminingsih orcid scopus  -  Universitas Diponegoro, Indonesia
Sri Sumiyati  -  Universitas Diponegoro, Indonesia
Syafrudin Syafrudin  -  Universitas Diponegoro, Indonesia
Irfan Alfarisi  -  Universitas Diponegoro, Indonesia
Risky Setiawan  -  Universitas Diponegoro, Indonesia
Axelino Farrell Andika  -  Universitas Diponegoro, Indonesia
Mustika Balqis  -  Universitas Diponegoro, Indonesia

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Abstract

Waste generation is increasing along with the increase in population and human living needs. The most dominant waste composition in Indonesia is organic waste, which accounts for 53.97% of the total waste. Eco-enzyme is one of the waste utilization products that has the potential to become an activator for the decomposition process and reduce the environmental effects of waste decomposition. The aim of this research is to analyse the micronutrient content of compost, reduce leachate toxicity, and accelerate the production of methane gas resulting from decomposition using eco-enzymes. The method used was an experimental method (trial) to obtain primary data from laboratory test results during 28 days of research. The research results show that, in general, there is a significant difference in the quality of compost in organic waste that uses eco-enzyme compared to that that does not use eco-enzyme. The results of measuring the quality of the leachate resulting from decomposition show that the quality of the leachate that uses eco-enzyme is better and has lower toxicity than without using eco-enzyme (control). In the production of methane gas, the results show that methane gas production in decomposition using eco-enzymes reaches the methanogenesis process more quickly.

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Keywords: Organic waste; eco-enzyme; compost; leachate; methane gas

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  1. Damanhuri, E., & Padmi, T. (2010). Pengelolaan sampah. Diktat Kuliah TL, 3104, 5–10
  2. IPCC. 2006. 2006 IPCC Guidelines for National Greenhouse Gas Inventories. Vol 5, Waste, Chapter 3, Solid Waste Disposal
  3. Muliarta, I. N., Sudita, I. D. N., & Situmeang, Y. P. 2023. The Effect of Eco-enzyme Spraying on Suwung Landfill Waste, Denpasar, on Changes in Leachate Characteristics. Journal of Environmental Health, 15(1)
  4. Nurfajriah, et al. (2021). Pelatihan Pembuatan Eco-enzyme Sebagai Usaha Pengolahan Sampah Organik Pada Level Rumah Tangga. Jurnal Ikraith-Abdimas.3(4):194-197
  5. Park, Jin-Won., Shin, Ho-Chul. 2011. Surface emission of landfill gas from solid waste landfill. Journal Atmospheric Environment, edition: 35 (2011) 3445–3451
  6. Pratamadina, Efli & Wikaningrum, Temmy. (2022). Potensi Penggunaan Eco Enzyme pada Degradasi Deterjen dalam Air Limbah Domestik. Jurnal Serambi Engineering. 7. 10.32672/jse.v7i1.3881
  7. (SIPSN), S. I. (2022). Grafik komposisi sampah berdasarkan jenis sampah. Kota Semarang: Menteri Lingkungan HIdup dan Kehutanan
  8. Susanto, P.J., Ganefati P.S., Muryani, S., dan Istiqomah, H.S., 2004. Pengolahan Lindi (Leachate) dari TPA dengan Menggunakan Sistem Koagulasi Biofilter Anaerobic. Jurnal Teknologi Lingkungan, 5:167-173
  9. Tchobanoglous, George. Theisen, Hilary. Vigil, Samuel.1993. Integrated Solid Waste Management. Mc Graw-Hill, Inc. New York

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