The digital transformation of society and economy is seen by a large majority of waste stakeholders as a pivotal mean to “spur innovation and productivity growth, to transform waste services, and to improve the amenity of cities as information, knowledge and data become more widely available”(see the EEA 2020 report on Digital Waste Management). Despite that the waste management sector is still in an early phase in this development, digital technologies already appear as indispensable to engage the transition to Circular economy which requires a much more efficient management system since the distinction between raw materials, products and waste becomes increasingly unclear,
Continue reading “Blockchain: a tool to support circular economy processes ?”Tag: municipal wastes
Municipal waste collection issues at stake under the proposed revision of the Waste Framework Directive
‘Collection’ is defined by Waste Framework Directive 2008/98/EC as amended by 2018/851/EC as: ‘the gathering of waste, including the preliminary sorting and preliminary storage of waste for the purposes of transport to a waste treatment facility.’ This is the point where begin any waste management processes which are imposed by law. One of them is the obligation to organize separate collection system for the flowing waste streams:
- paper, metal, plastic and glass (2015)
- bio waste (31 December 2023)
- textile and hazardous household waste (1 January 2025).
How can composting systems improve municipal solid waste management in developing countries ?
Composting is a growing global concern for cities who face increasing waste generation and the associated climate impact, especially in developing countries where, even if consumption habits are changing, organic matters still represent more than 50 % of the domestic solid wastes. Here are the usually expected benefits from compositing municipal organic waste in cities.
- Public hygiene in the suburbs: the organic matters contribute to diseases spreading and cause a significant loss of amenity (odors, rodent, etc) in the public space if they are not regularly collected (especially in hot and wet conditions)
- Municipal solid waste management system: composting can cut the quantities of waste to be landfilled and the environmental impacts associated with it (gas emissions, odors, leachate). It requires less investment and operational capacity that anaerobic digestion. Indirectly, separating the organic matters from other waste will make the sorting of other recyclables much easier and more efficient.
- Agricultural production system: as soil conditioner and “slow” fertilizer, compost has a real potential to reduce the needs for chemicals and contribute to soil conservation (and thus to restore soil fertility on the long term). Typically, one kilogram of compost per square meter is distributed annually to farmlands.
- Carbon emission: Composting is a carbon neutral natural degradation process, which helps storing carbon in soil. By diverting organic matters from landfills, it decreases methane emissions in proportion. Therefore, composting systems are eligible for carbon credit, but this seems rather difficult. in 2012, only 46 projects were receiving, under the Clean Development Mechanism.
Facing the upsurge of municipal wastes in the next decades
The World Bank publication “More growth, less garbage”, estimates waste generation to grow from 2.24 billion tonnes in 2020 to 3.88 billion tonnes by 2050 under a business-as usual scenarios. It will then stand at 1.09 kg of waste per capita per day, on average. This 70 % increase will not be only driven by demographic growth (world population is expected to reach 9.7 billion in 2050, meaning 25 % increase as compared with 2021) but also by increases in prosperity and urbanization in the developing countries where waste generation is expected to triple. There is indeed a strong positive correlation between waste generation per capita and GDP per capita. Here is some projections from the World Bank on the total waste generation by region.
Sustainable Synergies 