Design of Integrated Solid Waste Management Plant (TPST) in Talangagung TPA, Malang Regency
Talangagung Landfill is one of the landfills that are still open dumping/semi sanitary landfill, in the preparation of master plan documents and DED of Malang Regency Waste Management to reduce waste generation caused by increasing population activities. TPA Talangagung has services with a populatio...
Saved in:
| Main Author: | |
|---|---|
| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/43391 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Talangagung Landfill is one of the landfills that are still open dumping/semi sanitary landfill, in the preparation of master plan documents and DED of Malang Regency Waste Management to reduce waste generation caused by increasing population activities. TPA Talangagung has services with a population of 861,643 people with a population density of 865 people/km2. A large number of population services in the Talangagung TPA raises problems related to waste management because the generation that enters the TPA is 59,485 tons/day. To reduce waste generation that enters the landfill, it requires the construction of an Integrated Waste Management Site (TPST) which is expected to reduce waste generation before being transported to the Talangagung Landfill. TPST design and system development planned for a 10-year service period. Alternatif management scenarios in the Talangagung Landfill were selected based on existing conditions compared to applicable regulations such as Masterplan, Jakstrada and SPM Permen PU No. 14 on Minimum Service Standards in Public Works and Spatial Planning, while for technology alternatifs were selected based on waste characteristics such as water content 65.57%, Volatile content 79.61%, NTK 1.27%, C-organic 65.4%, C/R 40.75, and calorific value 2654.6 kkg/cal, as well as comparing the waste processing needs in the study area The best alternative selection is done using the Simple Additive Weighting (SAW) method. From that method, the alternative selection is chosen each from each of their respective processing. The first alternative was chosen as an alternative to aerobic waste treatment technology with windrow compost and also the waste treatment technology with anaerobic digester fixing the dome, while for inorganic processing milling plastic PET / PET type was used for plastic ore. |
|---|