THE DESIGN OF AN INTEGRATED WASTE MANAGEMENT FACILITY WITH REFUSE-DERIVED FUEL (RDF) TECHNOLOGY AS A REPLACEMENT FOR SUBANG TRADITIONAL MARKET TEMPORARY WASTE SHELTER IN SUBANG SUB-DISTRICT
Population growth will always in line with the waste generated by the people. Combined with an unruly waste management at the earliest level it was generated, resulting in a huge amount of waste being disposed to the landfill. Aside from that, the absence of a proper waste management facility mak...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/70733 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Population growth will always in line with the waste generated by the people. Combined with an
unruly waste management at the earliest level it was generated, resulting in a huge amount of waste
being disposed to the landfill. Aside from that, the absence of a proper waste management facility
making Indonesia’s municipal solid waste (msw) management more complex. In Sub-district of
Subang, with a population of more than 100000 (hundreds of thousands) people there is only 5
(five) msw facilities that applied reduce, reuse, and recycle principle. This affecting to the waste
being disposed to the landfill goes without a significant reduction. To answer the challenge, the
design of an integrated waste management facility (IWMF) was projected to maximize the
reduction at the earliest level of waste generation so that the waste disposed to the landfill goes to
the minimum amount possible. The design done by firstly identifying total waste generated in the
planned area of service by stratified random sampling with income level as the classification. The
waste generated’s composition and characteristics also being identified to be further analysed
using Simple Additive Weighting for the technology selection. Refuse-Derived Fuel (RDF)
technology was selected and the facility was projected to be able to produced 18 ton/day RDF
from 85 ton/day waste input. The capital expense for this design is Rp11.925.907.521 while for
the operation will cost Rp1.375.100.000 annually. Using net present value and benefit cost ratio
approach the design is economically viable to be built. |
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