DESIGN OF 3R-BASED TRANSFER STATION IN CICAHEUM TRANSFER STATION

Cicaheum Transfer Station (will be further referred as Cicaheum TS) has 216.45 m2 of area and is located in Cicaheum. Cicaheum TS collects solid waste from municipal area and commercial areas (traditional markets and Cicaheum Bus Terminal). Cicaheum TS collects about 36.55 m3 of solid waste per day...

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Main Author: RAFIF WIJAYARSO NIM: 15313035, ADNAN
Format: Final Project
Language:Indonesia
Online Access:https://digilib.itb.ac.id/gdl/view/25050
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:25050
spelling id-itb.:250502018-09-18T11:18:02ZDESIGN OF 3R-BASED TRANSFER STATION IN CICAHEUM TRANSFER STATION RAFIF WIJAYARSO NIM: 15313035, ADNAN Indonesia Final Project INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/25050 Cicaheum Transfer Station (will be further referred as Cicaheum TS) has 216.45 m2 of area and is located in Cicaheum. Cicaheum TS collects solid waste from municipal area and commercial areas (traditional markets and Cicaheum Bus Terminal). Cicaheum TS collects about 36.55 m3 of solid waste per day – most of them are organics (57.83%), plastic (20.34%), and paper (7.25%) – and 93.18% of it is being transported daily to Sarimukti final disposal site – which was initially designed to treat solid waste until 2016, but the new site at Legok Nangka won’t be operational before 2021. To reduce the waste that needs to be transported to final disposal site, the Cicaheum TS needs to be improved by building 3R-based Cicaheum TS. 3R-based Cicaheum TS is designed to convert organic waste into biogas using 15 high-solids anaerobic digester reactors (each reactor can treat 3 m3 of organic waste), convert coconut waste into white coir using stripping machine and defibering machine, and to facilitate the reselling of salable cardboard waste and plastic waste. Each day, Cicaheum 3R-based TS will generate 64.33 m3 of biogas from anaerobic digestion of organic waste, 0.15 m3 of salable white coir, 0.38 m3 of transparent PET plastics, 0.13 m3 of colored PET plastics, and 0.25 m3 of PP plastics – in estimation. By treating these kinds of waste in Cicaheum 3R-based TS, the volume of residual waste that needs to be transported to final disposal site is 1.16 m3/day, or 16.68% of the waste that is collected in Cicaheum 3R-based TS. Organic waste treatment using high-solids anaerobic digesters in Cicaheum 3R-based TS costs Rp 592,557 per ton, annually. Based on NPV (Net Present Value) analysis, it is economically sustainable to build 3R-based Cicaheum because the NPV value of this project is +Rp 24,274,301. <br /> <br /> text
institution Institut Teknologi Bandung
building Institut Teknologi Bandung Library
continent Asia
country Indonesia
Indonesia
content_provider Institut Teknologi Bandung
collection Digital ITB
language Indonesia
description Cicaheum Transfer Station (will be further referred as Cicaheum TS) has 216.45 m2 of area and is located in Cicaheum. Cicaheum TS collects solid waste from municipal area and commercial areas (traditional markets and Cicaheum Bus Terminal). Cicaheum TS collects about 36.55 m3 of solid waste per day – most of them are organics (57.83%), plastic (20.34%), and paper (7.25%) – and 93.18% of it is being transported daily to Sarimukti final disposal site – which was initially designed to treat solid waste until 2016, but the new site at Legok Nangka won’t be operational before 2021. To reduce the waste that needs to be transported to final disposal site, the Cicaheum TS needs to be improved by building 3R-based Cicaheum TS. 3R-based Cicaheum TS is designed to convert organic waste into biogas using 15 high-solids anaerobic digester reactors (each reactor can treat 3 m3 of organic waste), convert coconut waste into white coir using stripping machine and defibering machine, and to facilitate the reselling of salable cardboard waste and plastic waste. Each day, Cicaheum 3R-based TS will generate 64.33 m3 of biogas from anaerobic digestion of organic waste, 0.15 m3 of salable white coir, 0.38 m3 of transparent PET plastics, 0.13 m3 of colored PET plastics, and 0.25 m3 of PP plastics – in estimation. By treating these kinds of waste in Cicaheum 3R-based TS, the volume of residual waste that needs to be transported to final disposal site is 1.16 m3/day, or 16.68% of the waste that is collected in Cicaheum 3R-based TS. Organic waste treatment using high-solids anaerobic digesters in Cicaheum 3R-based TS costs Rp 592,557 per ton, annually. Based on NPV (Net Present Value) analysis, it is economically sustainable to build 3R-based Cicaheum because the NPV value of this project is +Rp 24,274,301. <br /> <br />
format Final Project
author RAFIF WIJAYARSO NIM: 15313035, ADNAN
spellingShingle RAFIF WIJAYARSO NIM: 15313035, ADNAN
DESIGN OF 3R-BASED TRANSFER STATION IN CICAHEUM TRANSFER STATION
author_facet RAFIF WIJAYARSO NIM: 15313035, ADNAN
author_sort RAFIF WIJAYARSO NIM: 15313035, ADNAN
title DESIGN OF 3R-BASED TRANSFER STATION IN CICAHEUM TRANSFER STATION
title_short DESIGN OF 3R-BASED TRANSFER STATION IN CICAHEUM TRANSFER STATION
title_full DESIGN OF 3R-BASED TRANSFER STATION IN CICAHEUM TRANSFER STATION
title_fullStr DESIGN OF 3R-BASED TRANSFER STATION IN CICAHEUM TRANSFER STATION
title_full_unstemmed DESIGN OF 3R-BASED TRANSFER STATION IN CICAHEUM TRANSFER STATION
title_sort design of 3r-based transfer station in cicaheum transfer station
url https://digilib.itb.ac.id/gdl/view/25050
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