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Best Available Techniques (BAT) Reference Document for Waste treatment Industrial Emissions Directive 2010/75/EU (Integrated Pollution Prevention and Control)

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Abstract

The Best Available Techniques (BAT) Reference Document for Waste Treatment is the result of the information exchange since the kick-off meeting which was held from 25 to 28 November 2013. The information collection took place in 2014 and 2015 and the final meeting took place in March 2017. The document includes information on the following waste treatment processes:- Mechanical treatment in shredders of metal waste- Mechanical treatment of VFCs and VHCs containing equipment- Mechanical treatment of waste with calorific value- Aerobic treatment of waste- Anaerobic treatment of waste- Mechanical-Biological treatment of waste (MBT)- Physico-chemical treatment of solid and pasty waste- Re-refining of waste oil- Physico-chemical treatment of waste with calorific value- Regeneration of spent solvents- Physico-chemical and/or biological treatment of water-based liquid waste- Regeneration / recovery of pollution abatement components / Flue-Gas Treatment (FGT) of waste- Recovery of components from spent catalysts- Treatment of excavated contaminated soil- Treatment of POPs-containing waste- Treatment of mercury-containing waste

Suggested Citation

  • PINASSEAU Antoine & ZERGER Benoît & ROTH Joze & CANOVA Michele & ROUDIER Serge, 2018. "Best Available Techniques (BAT) Reference Document for Waste treatment Industrial Emissions Directive 2010/75/EU (Integrated Pollution Prevention and Control)," JRC Research Reports JRC113018, Joint Research Centre.
  • Handle: RePEc:ipt:iptwpa:jrc113018
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    File URL: https://publications.jrc.ec.europa.eu/repository/handle/JRC113018
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    1. Ann Colles & Dries Coertjens & Bert Morrens & Elly Den Hond & Melissa Paulussen & Liesbeth Bruckers & Eva Govarts & Adrian Covaci & Gudrun Koppen & Kim Croes & Vera Nelen & Nicolas Van Larebeke & Stef, 2021. "Human Biomonitoring Data Enables Evidence-Informed Policy to Reduce Internal Exposure to Persistent Organic Compounds: A Case Study," IJERPH, MDPI, vol. 18(11), pages 1-21, May.
    2. Karolina Sobieraj & Sylwia Stegenta-Dąbrowska & Jacek A. Koziel & Andrzej Białowiec, 2021. "Modeling of CO Accumulation in the Headspace of the Bioreactor during Organic Waste Composting," Energies, MDPI, vol. 14(5), pages 1-17, March.
    3. Riccardo Tinivella & Riccardo Bargiggia & Giampiero Zanoni & Arianna Callegari & Andrea G. Capodaglio, 2023. "High-Strength, Chemical Industry Wastewater Treatment Feasibility Study for Energy Recovery," Sustainability, MDPI, vol. 15(23), pages 1-23, November.
    4. Aleksandra Leśniańska & Beata Janowska & Robert Sidełko, 2022. "Immobilization of Zn and Cu in Conditions of Reduced C/N Ratio during Sewage Sludge Composting Process," Energies, MDPI, vol. 15(12), pages 1-19, June.
    5. Stefano Castelluccio & Claudio Comoglio & Silvia Fiore, 2022. "Environmental Performance Reporting and Assessment of the Biodegradable Waste Treatment Plants Registered to EMAS in Italy," Sustainability, MDPI, vol. 14(12), pages 1-14, June.
    6. Vesna Mislej & Barbara Novosel, 2022. "Specification and Classification of Pelletised Dried Sewage Sludge: Identifying Its Key Properties as a Renewable Material for Enabling Environmentally Non-Harmful Energy Utilisation," Sustainability, MDPI, vol. 14(22), pages 1-24, November.
    7. Istrate, Ioan-Robert & Medina-Martos, Enrique & Galvez-Martos, Jose-Luis & Dufour, Javier, 2021. "Assessment of the energy recovery potential of municipal solid waste under future scenarios," Applied Energy, Elsevier, vol. 293(C).

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