Assessing the sustainability of Best Available Techniques (BAT): methodology and application in the ceramic tiles industry

This paper presents a methodology for identifying sustainable and most appropriate BAT for a given industrial installation and sector. The methodology involves identification of environmental hot spots from an installation by using life cycle assessment (LCA) to guide the selection of candidate BAT...

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Bibliographic Details
Published in:Journal of cleaner production 2013-07, Vol.51, p.162-176
Main Authors: Ibáñez-Forés, V., Bovea, M.D., Azapagic, A.
Format: Article
Language:English
Subjects:
Animal, plant and microbial ecology
Applied ecology
Best Available Technology (BAT)
Biological and medical sciences
Ceramic tiles industry
Conservation, protection and management of environment and wildlife
Eco-efficiency
Environment and sustainable development
Fundamental and applied biological sciences. Psychology
General aspects
LCA
Sustainability assessment
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Summary:This paper presents a methodology for identifying sustainable and most appropriate BAT for a given industrial installation and sector. The methodology involves identification of environmental hot spots from an installation by using life cycle assessment (LCA) to guide the selection of candidate BAT options for targeting the hot spots. The selected BAT options are then assessed on sustainability using relevant environmental, economic, technical and social indicators. This enables benchmarking of different options and selection of the most appropriate alternative(s) for the system of interest. The application of the approach is illustrated by a case study of ceramic tiles produced in Spain. The results indicate that firing and drying are the hot spots for most sustainability impacts considered. To target these, 11 BAT options used in 13 alternative configurations of the manufacturing process have been considered and assessed on sustainability. The results suggest that the most sustainable BAT options for the ceramic tiles industry, both environmentally and economically, include heat recovery from the flue gas and its clean-up with CaCO3 and/or Ca(OH)2. Depending on the configuration, cost savings of up to 30% and environmental improvements of over 95% can be achieved with these BAT options. ► A new methodology for identifying sustainable BAT options developed based on LCA. ► Enables benchmarking of different BAT options and selection of most sustainable alternative. ► Methodology applied on a case study of the manufacture of ceramic tiles in Spain. ► The most sustainable BAT are heat recovery from flue gas and clean-up with CaCO3 and/or Ca(OH)2.
ISSN:0959-6526
1879-1786
DOI:10.1016/j.jclepro.2013.01.020