POTENTIAL REDUCTION OF GREENHOUSE GAS EMISSIONS THROUGH OPTIMIZATION OF THE INTEGRATED WASTE TREATMENT PLANT (IPST) IN CAMPUS AREA (STUDY CASE: ITB GANESHA CAMPUS)
Landfilling waste emits significant amounts of greenhouse gases (GHGs), contributing to global warming and climate change. Institut Teknologi Bandung (ITB) has developed a sustainable waste management master plan, integrating composting technology, incinerators, Black Soldier Fly (BSF), and recyc...
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id-itb.:847232024-08-16T15:22:31ZPOTENTIAL REDUCTION OF GREENHOUSE GAS EMISSIONS THROUGH OPTIMIZATION OF THE INTEGRATED WASTE TREATMENT PLANT (IPST) IN CAMPUS AREA (STUDY CASE: ITB GANESHA CAMPUS) Nada Alifah, Dinda Teknik saniter dan perkotaan; teknik perlindungan lingkungan Indonesia Final Project carbon pricing, greenhouse gas emissions, IPCC, landfill, reduction, waste, waste management. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/84723 Landfilling waste emits significant amounts of greenhouse gases (GHGs), contributing to global warming and climate change. Institut Teknologi Bandung (ITB) has developed a sustainable waste management master plan, integrating composting technology, incinerators, Black Soldier Fly (BSF), and recycling to reduce waste transported to landfills. This study examines the potential for GHG emission reductions and the economic value of carbon (NEK) by optimizing waste processing technology at the Integrated Waste Treatment Plant (IPST) in the Campus area. Waste generation and composition data were used to estimate GHG emissions through sampling methods based on SNI 19-3964-1994. GHG emissions were estimated using the IPCC 2006 Guidelines tier-1 method. The average daily waste generation for mixed waste, leaf waste, and food waste was 917.42 kg/day, 553.16 kg/day, and 9.18 kg/day, respectively. The study results show that GHG emissions for the business-as-usual scenario, optimistic IPST optimization scenario, and pessimistic scenario were 1071.50 tons CO2e/year, 357.94 tons CO2e/year, and 651.14 tons CO2e/year, respectively. The optimistic waste management scenario can reduce GHG emissions by 713.56 tons CO2e/year (66.59%), while the pessimistic scenario can reduce 420.36 tons CO2e/year (39.23%). The carbon valuation based on the carbon unit price from IDXCarbon was Rp41,957,515.2 for the optimistic scenario and Rp24,717,063.5 for the pessimistic scenario. text |
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Teknik saniter dan perkotaan; teknik perlindungan lingkungan Nada Alifah, Dinda POTENTIAL REDUCTION OF GREENHOUSE GAS EMISSIONS THROUGH OPTIMIZATION OF THE INTEGRATED WASTE TREATMENT PLANT (IPST) IN CAMPUS AREA (STUDY CASE: ITB GANESHA CAMPUS) |
| description |
Landfilling waste emits significant amounts of greenhouse gases (GHGs),
contributing to global warming and climate change. Institut Teknologi Bandung
(ITB) has developed a sustainable waste management master plan, integrating
composting technology, incinerators, Black Soldier Fly (BSF), and recycling to
reduce waste transported to landfills. This study examines the potential for GHG
emission reductions and the economic value of carbon (NEK) by optimizing waste
processing technology at the Integrated Waste Treatment Plant (IPST) in the
Campus area. Waste generation and composition data were used to estimate GHG
emissions through sampling methods based on SNI 19-3964-1994. GHG emissions
were estimated using the IPCC 2006 Guidelines tier-1 method. The average daily
waste generation for mixed waste, leaf waste, and food waste was 917.42 kg/day,
553.16 kg/day, and 9.18 kg/day, respectively. The study results show that GHG
emissions for the business-as-usual scenario, optimistic IPST optimization
scenario, and pessimistic scenario were 1071.50 tons CO2e/year, 357.94 tons
CO2e/year, and 651.14 tons CO2e/year, respectively. The optimistic waste
management scenario can reduce GHG emissions by 713.56 tons CO2e/year
(66.59%), while the pessimistic scenario can reduce 420.36 tons CO2e/year
(39.23%). The carbon valuation based on the carbon unit price from IDXCarbon
was Rp41,957,515.2 for the optimistic scenario and Rp24,717,063.5 for the
pessimistic scenario. |
| format |
Final Project |
| author |
Nada Alifah, Dinda |
| author_facet |
Nada Alifah, Dinda |
| author_sort |
Nada Alifah, Dinda |
| title |
POTENTIAL REDUCTION OF GREENHOUSE GAS EMISSIONS THROUGH OPTIMIZATION OF THE INTEGRATED WASTE TREATMENT PLANT (IPST) IN CAMPUS AREA (STUDY CASE: ITB GANESHA CAMPUS) |
| title_short |
POTENTIAL REDUCTION OF GREENHOUSE GAS EMISSIONS THROUGH OPTIMIZATION OF THE INTEGRATED WASTE TREATMENT PLANT (IPST) IN CAMPUS AREA (STUDY CASE: ITB GANESHA CAMPUS) |
| title_full |
POTENTIAL REDUCTION OF GREENHOUSE GAS EMISSIONS THROUGH OPTIMIZATION OF THE INTEGRATED WASTE TREATMENT PLANT (IPST) IN CAMPUS AREA (STUDY CASE: ITB GANESHA CAMPUS) |
| title_fullStr |
POTENTIAL REDUCTION OF GREENHOUSE GAS EMISSIONS THROUGH OPTIMIZATION OF THE INTEGRATED WASTE TREATMENT PLANT (IPST) IN CAMPUS AREA (STUDY CASE: ITB GANESHA CAMPUS) |
| title_full_unstemmed |
POTENTIAL REDUCTION OF GREENHOUSE GAS EMISSIONS THROUGH OPTIMIZATION OF THE INTEGRATED WASTE TREATMENT PLANT (IPST) IN CAMPUS AREA (STUDY CASE: ITB GANESHA CAMPUS) |
| title_sort |
potential reduction of greenhouse gas emissions through optimization of the integrated waste treatment plant (ipst) in campus area (study case: itb ganesha campus) |
| url |
https://digilib.itb.ac.id/gdl/view/84723 |
| _version_ |
1822010472928378880 |