摘要: Australian waste related emissions are poorly characterised in National Greenhouse Accounts, with only landfill emissions directly attributed. Direct and indirect emissions however occur at all points along the waste management chain resulting from the consumption of energy and fuel during collection, transportation, and waste recovery activities. Without knowledge of waste-related emissions, it is difficult to evaluate the potential of different management pathways for achieving resource recovery and emission reduction objectives. Previous studies tend to utilise life cycle assessment (LCA) in examining waste transport emissions. Some studies have developed country-specific emissions factors for waste transportation based on LCA, however such factors have high variability owing to these models being dependent on widely varying local conditions. The aim of this study is to estimate emissions associated with kerbside organic waste collection from households and transportation in the Greater Sydney area in 2018–19. High-resolution road network and property-lot waste generation data was utilised in a GIS integrated route optimisation model. Our model considered transport of collection vehicles ‘to’and ‘from’transfer stations and kerbside collection areas across the 43 council areas, as well as transport of waste collected to reprocessing and landfill facilities. Greenhouse gas emissions for organic waste transport and collection were estimated at approximately 43,700 t CO2-e, equal to approximately 2% of all road transport emissions in the study area. Kerbside collection was the largest contributor to overall transport emissions, accounting for …
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