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Esters and alcohols are widely used as solvents in the packaging industry. They contribute to the increase of volatile organic compound (VOC) emissions and, as such, represent a serious air pollution problem that must be faced. To this end, two main strategies can be pursued: solvent recovery and/or incineration, the former being of course preferred. Solvent recovery consists of an activated carbon plant, which adsorbs the post-printing exhaust solvents, and a distillation system, which separates the recovered solvent mixture. The waste streams coming from the solvent recovery stage need to be disposed, implying additional costs as well as safety issues. In this work, a low-cost perovskite-based catalyst, doped with a low amount of noble metal (Pt) and supported over a monolithic reactor, was used to run lab-scale combustion tests for waste streams coming from the solvent recovery stage of the packaging industry Icimendue (www.icimen.com). Results of experimental tests support the validity of catalytic combustion of the waste streams as an alternative approach to their disposal.
Landi, Gianluca; Di Sarli, Valeria; Di Benedetto, Almerinda; Berardini, Francesco; and Mensitieri, Mario
"Catalytic Combustion of Waste Streams Coming from the Solvent Recovery Stage of a Packaging Industry,"
Journal of Applied Packaging Research: Vol. 8:
4, Article 3.
Available at: https://repository.rit.edu/japr/vol8/iss4/3