Abstract
In the European Union, more than 140 million tonnes of municipal solid waste is incinerated annually. It generates about 30–40 million tonnes of residues known as municipal solid waste incinerator bottom ash, which is typically landfilled. To deal with growing landfills, there is a need to utilize municipal solid waste incinerator bottom ash as a building material. It has been known that municipal solid waste incinerator bottom ash properties strongly depend on waste composition, which is directly influenced by people’s habits, economic policy, and technologies for metals recovery of bottom ash. Thus, municipal solid waste incinerator bottom ash produced in a specific country or region has primarily to be tested to determine its physical and mechanical properties. The main aim of this study is to determine municipal solid waste incinerator bottom ash physical and mechanical properties (aggregate particle size distribution, water content, oven-dried particle density, loose bulk density, Proctor density, optimal water content, California Bearing Ratio after and before soaking, permeability, Flakiness Index, Shape Index, percentage of crushed and broken surfaces, resistance to fragmentation (Los Angeles coefficient), water absorption and resistance to freezing and thawing). Municipal solid waste in-cinerator bottom ash produced in the waste-to-energy plant in Klaipėda (Lithuania) was used in this research. Ferrous and non-ferrous metals were separated after more than three months of municipal solid waste incinerator bottom ash ageing in the atmosphere. The study showed promising results from considering municipal solid waste incinerator bottom ash as possible aggregates for road building materials.
Highlights
According to Eurostat, each inhabitant generates an average of half a tonne of waste per year in the European Union
The utilisation of municipal solid waste incinerator bottom ash is a key issue in moving towards less landfilling, and in Lithuania it becomes even more important because 2.3 times more bottom ash will be generated annually consequent on a dramatic increase in the production of municipal solid waste incinerator bottom ash after two new waste-to-energy plants are opened in 2019
Ageing for at least 3 months and recovery of ferrous and non-ferrous metals are essential procedures to reduce the negative effect of bottom ash on the environment
Summary
According to Eurostat, each inhabitant generates an average of half a tonne of waste per year in the European Union. It is landfilled, incinerated, recycled or composted. Developed countries move steadily towards less landfilling. It results in a larger amount of incinerated, recycled and composted municipal waste. More than 140 million tonnes of municipal waste is incinerated annually. It generates about 30–40 million tonnes of large agglomerated residues, known as municipal solid waste incinerator (MSWI) bottom ash, which is typically landfilled. To deal with growing landfills, there is a need to find alternative ways of utilizing MSWI bottom ash
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