EVALUATION OF WASTE HANDLING SYSTEM IN YOGYAKARTA URBAN AREA USING LIFE CYCLE ASSESSMENT (LCA)

EVALUATION OF WASTE HANDLING SYSTEM IN YOGYAKARTA URBAN AREA USING LIFE CYCLE ASSESSMENT (LCA)

Handling waste by landfill or land-filling is the main waste management implemented in the Yogyakarta Urban Area. Even though the application is easy, landfills can contribute to environmental impacts resulting frommethane gasemissions and the resulting leachate. The Yogyakarta urban area as a stud...

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Main Author: Tri Wantika, Fita
Format: Theses
Language:Indonesia
Subjects:
Teknik saniter dan perkotaan; teknik perlindungan lingkungan
Online Access:https://digilib.itb.ac.id/gdl/view/71972
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:71972
spelling id-itb.:719722023-03-01T08:46:41ZEVALUATION OF WASTE HANDLING SYSTEM IN YOGYAKARTA URBAN AREA USING LIFE CYCLE ASSESSMENT (LCA) Tri Wantika, Fita Teknik saniter dan perkotaan; teknik perlindungan lingkungan Indonesia Theses Environmental Impact, Incinerator, Open Dumping Landfill, Sanitary Landfill, Waste Handling INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/71972 Handling waste by landfill or land-filling is the main waste management implemented in the Yogyakarta Urban Area. Even though the application is easy, landfills can contribute to environmental impacts resulting frommethane gasemissions and the resulting leachate. The Yogyakarta urban area as a student andtourism city is experiencing population growth which is increasing fromyear toyear, thus increasing the amount of waste that must be processed using landfills. Another challenge with using landfills is the availability of land. Large amountsof waste require large landfills. This is the basis for the need for otheralternatives for handling waste in the Yogyakarta Urban Area. Therefore, anevaluation of the waste handling system at TPA Piyungan Yogyakarta was carriedout using the Life Cycle Assessment (LCA) method on the waste transportationand processing system. The LCA method used refers to ISO 14040:2006 withthecategories of environmental impacts being measured, namely global warmingpotential (GWP), acidification potential (AP), eutrophication potential (EP), andhuman toxicity potential (HTP). The inventory was obtained through literaturestudies, observations, interviews and secondary data from the local government. The Thornthwaite method is used to predict the amount of leachate dischargefrom the landfill. Environmental impact calculations were performed usingOpenLCA 1.11 software with CML-IA baseline characterization factors. Inventoryresults show that the largest emission generated from handling existing wastewith landfills at the Piyungan TPA is CH4 emissions of 45.6 kg/tonne of waste. This is due to the anaerobic conditions in the landfill. In addition toCH4emissions, landfills also emit acidic compounds and a number of heavy metalsinto the environment. The malfunction of the Leachate Processing Installation(IPL) increases the burden of emissions released into the environment. Scenario1which consists of handling with TPS 3R and open dumping landfill gives a GWPimpact of 989 tons CO2 eq/day, an AP impact of 0.071 tons SO2 eq/day, anEPimpact of 14 tons PO43-eq/day, and an HTP impact of 25 tonnes 1.4-DBeq/day. Scenario 2 which consists of handling with TPS 3R and sanitary landfill gives aGWP impact of 456 tons CO2 eq/day, an AP impact of 0.064 tons SO2 eq/day, anEP impact of 684 kg PO43-eq/day, and an HTP impact of 2 tons 1.4-DBeq/day. Scenario 3 which consists of handling with incineration without TPS 3Rgives aGWP impact of 104 tons CO2 eq/day, an AP impact of 0.056 tons SO2 eq/day, an EP impact of 15 kg PO43-eq/day, and an HTP impact of 106 tons 1 ,4-DB eq/day. The results of the analysis show that scenario 3 has the least impact when addingflue gas cleaning (FGC) to control SO2 and NOx emissions. 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
topic Teknik saniter dan perkotaan; teknik perlindungan lingkungan
spellingShingle Teknik saniter dan perkotaan; teknik perlindungan lingkungan
Tri Wantika, Fita
EVALUATION OF WASTE HANDLING SYSTEM IN YOGYAKARTA URBAN AREA USING LIFE CYCLE ASSESSMENT (LCA)
description Handling waste by landfill or land-filling is the main waste management implemented in the Yogyakarta Urban Area. Even though the application is easy, landfills can contribute to environmental impacts resulting frommethane gasemissions and the resulting leachate. The Yogyakarta urban area as a student andtourism city is experiencing population growth which is increasing fromyear toyear, thus increasing the amount of waste that must be processed using landfills. Another challenge with using landfills is the availability of land. Large amountsof waste require large landfills. This is the basis for the need for otheralternatives for handling waste in the Yogyakarta Urban Area. Therefore, anevaluation of the waste handling system at TPA Piyungan Yogyakarta was carriedout using the Life Cycle Assessment (LCA) method on the waste transportationand processing system. The LCA method used refers to ISO 14040:2006 withthecategories of environmental impacts being measured, namely global warmingpotential (GWP), acidification potential (AP), eutrophication potential (EP), andhuman toxicity potential (HTP). The inventory was obtained through literaturestudies, observations, interviews and secondary data from the local government. The Thornthwaite method is used to predict the amount of leachate dischargefrom the landfill. Environmental impact calculations were performed usingOpenLCA 1.11 software with CML-IA baseline characterization factors. Inventoryresults show that the largest emission generated from handling existing wastewith landfills at the Piyungan TPA is CH4 emissions of 45.6 kg/tonne of waste. This is due to the anaerobic conditions in the landfill. In addition toCH4emissions, landfills also emit acidic compounds and a number of heavy metalsinto the environment. The malfunction of the Leachate Processing Installation(IPL) increases the burden of emissions released into the environment. Scenario1which consists of handling with TPS 3R and open dumping landfill gives a GWPimpact of 989 tons CO2 eq/day, an AP impact of 0.071 tons SO2 eq/day, anEPimpact of 14 tons PO43-eq/day, and an HTP impact of 25 tonnes 1.4-DBeq/day. Scenario 2 which consists of handling with TPS 3R and sanitary landfill gives aGWP impact of 456 tons CO2 eq/day, an AP impact of 0.064 tons SO2 eq/day, anEP impact of 684 kg PO43-eq/day, and an HTP impact of 2 tons 1.4-DBeq/day. Scenario 3 which consists of handling with incineration without TPS 3Rgives aGWP impact of 104 tons CO2 eq/day, an AP impact of 0.056 tons SO2 eq/day, an EP impact of 15 kg PO43-eq/day, and an HTP impact of 106 tons 1 ,4-DB eq/day. The results of the analysis show that scenario 3 has the least impact when addingflue gas cleaning (FGC) to control SO2 and NOx emissions.
format Theses
author Tri Wantika, Fita
author_facet Tri Wantika, Fita
author_sort Tri Wantika, Fita
title EVALUATION OF WASTE HANDLING SYSTEM IN YOGYAKARTA URBAN AREA USING LIFE CYCLE ASSESSMENT (LCA)
title_short EVALUATION OF WASTE HANDLING SYSTEM IN YOGYAKARTA URBAN AREA USING LIFE CYCLE ASSESSMENT (LCA)
title_full EVALUATION OF WASTE HANDLING SYSTEM IN YOGYAKARTA URBAN AREA USING LIFE CYCLE ASSESSMENT (LCA)
title_fullStr EVALUATION OF WASTE HANDLING SYSTEM IN YOGYAKARTA URBAN AREA USING LIFE CYCLE ASSESSMENT (LCA)
title_full_unstemmed EVALUATION OF WASTE HANDLING SYSTEM IN YOGYAKARTA URBAN AREA USING LIFE CYCLE ASSESSMENT (LCA)
title_sort evaluation of waste handling system in yogyakarta urban area using life cycle assessment (lca)
url https://digilib.itb.ac.id/gdl/view/71972
_version_ 1822992348909404160

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