C. Montejo scite author profile

In the endeavour of avoiding presence of biodegradable waste in landfills and increasing recycling, mechanical-biological treatment (MBT) plants have seen a significant increase in number and capacity in the last two decades. The aim of these plants is separating and stabilizing the quickly biodegradable fraction of the waste as well as recovering recyclables from mixed waste streams. In this study the environmental performance of eight MBT-based waste management scenarios in Spain was assessed by means of life cycle assessment. The focus was on the technical and environmental performance of the MBT plants. These widely differed in type of biological treatment and recovery efficiencies. The results indicated that the performance is strongly connected with energy and materials recovery efficiency. The recommendation for upgrading and/or commissioning of future plants is to optimize materials recovery through increased automation of the selection and to prioritize biogas-electricity production from the organic fraction over direct composting. The optimal strategy for refuse derived fuel (RDF) management depends upon the environmental compartment to be prioritized and the type of marginal electricity source in the system. It was estimated that, overall, up to ca. 180-190 kt CO2-eq. y(-1) may be saved by optimizing the MBT plants under assessment.

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Analysis of the presence of improper materials in the composting process performed in ten MBT plants

Montejo

Ramos

Costa

et al. 2010

Bioresource Technology

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Influence of input material and operational performance on the physical and chemical properties of MSW compost

Montejo

Costa

Márquez

2015

Journal of Environmental Management

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C. Montejo

Analysis and comparison of municipal solid waste and reject fraction as fuels for incineration plants

Mechanical–biological treatment: Performance and potentials. An LCA of 8 MBT plants including waste characterization

Analysis of the presence of improper materials in the composting process performed in ten MBT plants

Influence of input material and operational performance on the physical and chemical properties of MSW compost

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