Abstract
Bandung CO2 emissions continue to increase in line with its population. The emissions source comes from the industrial, transportation, Liquefied Petroleum Gas (LPG), household, and livestock sectors, whereas CO2 absorption only comes from vegetation through photosynthesis. High CO2 emissions could decrease air quality and reduce environmental health. This study aims to estimate the amount of CO2 emissions and their absorption in Bandung by implementing CO2 Emission Rate Reduction Simulation (CERRS). The simulation comprises four scenarios, namely substitution of vehicle fuel and the application of smart driving techniques, optimization of waste processing in IWPS, processing 90% of livestock waste into biogas, and green space development of 30% of Bandung City area. Estimated CO2 emission and absorption rates were calculated for the next 10 years (2021-2030) using the Stella program version 9.0.2. The results showed that without implementing the CERRS, the amount of CO2 emissions in Bandung in 2030 was estimated to reach 10,983,666.82 tons while implementing the CERRS was 2,361,721.30 tons. Without implementing the CERRS, the estimated amount of CO2 absorptions in 2030 was 214,235.11 tons, while implementing the CERRS was 2,785,703.11 tons. It is expected that the application of the CERRS could reduce the level of CO2 emissions in Bandung by 78.5% and increase CO2 absorptions by 1,200.3%.
Highlights
Models are applied to estimate CO2 emissions and absorptions from 2021 to 2030. 2030 is a year that is following the Nationally Determined Contribution (NDC) document related to the Paris Agreement
Estimation of CO2 emissions and absorptions divided into two categories, namely without CO2 Emission Rate Reduction Simulation (CERRS) intervention and with CERRS intervention
Simulation of CO2 emission and absorption in Bandung City without CERRS intervention results from Business as Usual, while the simulation of CO2 emission and absorption with CERRS intervention consists of four scenario stages, namely (1) substitution of motorized vehicle fuel and application of smart driving techniques, (2) optimization of waste processing at Integrated Waste Processing Site (IWPS), (3) processing 90% of livestock waste into biogas and (4) building green open space covering 30% of the area of Bandung City
Summary
The population of Bandung City in 2018 reached 2.5 million people [1] with a population growth rate of 0.72%, making this city a metropolitan. Based on data from the Ministry of Home Affairs of the Republic of Indonesia in 2015, Bandung is the 4th most populated city in Indonesia. The annual increase in urbanization activities caused population expansion in this capital city of West Java province. West Java province has experienced urbanization since 2000 [2]. Bandung is known as the city of education, which is one reason for urbanization. It happens both from rural to the city and outside Java to the city
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