Tazkya Circle, Chelsea and Umi Hariyaningrum, Tanjung (2024) UNDERGRADUATE THESIS THE PLANNING OF INTEGRATED WASTE PROCESSING SITE FOR DOMESTIC WASTE WITH RDF USING THE BIODRYING METHOD IN JEPARA, TAHUNAN, MLONGGO, AND KEDUNG SUB-DISTRICTS. Undergraduate thesis, Universitas Diponegoro.
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Abstract
ABSTRACT
The increasing population and urbanization in Jepara Regency have led to a
significant rise in domestic waste generation, reaching over 154,571.51 tons in 2023.
Current waste management methods, which predominantly rely on the "collect�transport-dispose" paradigm, have caused overcapacity in the Bandengan Landfill,
Jepara Regency's sole operational landfill after the closure of Krasak and Gemulung
Landfills. This situation necessitates an innovative waste processing approach to
extend landfill lifespan and minimize environmental impacts. This study focuses on
the technical planning of an Integrated Waste Processing Site in Jepara, Tahunan,
Kedung, and Mlonggo Sub-Districts using Refuse Derived Fuel (RDF) technology with
the biodrying method. Biodrying leverages microbial activity to reduce waste moisture
content, transforming domestic waste into an alternative fuel source for industrial
applications, such as cement production and power generation. By utilizing RDF, the
study aims to enhance waste-to-energy practices, reduce dependency on fossil fuels,
and support the national renewable energy mix target of 23% by 2025. The research
methodology includes analyzing current waste characteristics, projecting waste
generation until 2043, and designing technical components of the proposed Integrated
Waste Processing Site, including waste processing requirements, which involves
storage capacity, processing capacity, and land requirements, and also RDF
distribution. The results demonstrate that RDF technology can significantly reduce
landfill-bound waste while offering economic and environmental benefits. The
proposed Integrated Waste Processing Site framework serves as a model for addressing
waste management challenges in medium-sized cities across Indonesia.
Key words: Integrated Waste Processing Site; Refuse Derived Fuel; Biodrying;
Domestic Waste; Waste-to-Energy.
Item Type: | Thesis (Undergraduate) |
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Subjects: | Engineering |
Divisions: | Faculty of Engineering > Department of Environmental Engineering |
Depositing User: | anik riyanti |
Date Deposited: | 27 Dec 2024 06:48 |
Last Modified: | 27 Dec 2024 06:48 |
URI: | https://eprints2.undip.ac.id/id/eprint/28648 |
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