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Co-hydrothermal carbonization as a potential method of utilising digested sludge and screenings from wastewater treatment plants towards energy application

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posted on 2024-05-16, 10:25 authored by Nina Kossinska, Anna Grosser, Marzena KwapinskaMarzena Kwapinska, WITOLD KWAPINSKIWITOLD KWAPINSKI, Heba Ghazal, Hussam JouharaHussam Jouhara, Renata Krzyzy

Anaerobic digestion is one of the most recommended methods for utilising sewage sludge produced by waste-water treatment plants. However, the increasing amount of micropollutants in digested sludge can significantly limit its future utilisation. Recent studies suggests that the hydrothermal carbonization process can be used as a complementary method for sludge management, due to the improved quality of solid products - hydrochar. Moreover, this allows for the possibility of reusing liquid by-products in the anaerobic digestion process for biogas production. However, hydrochar generated from hydrothermal carbonization has a higher concentration of heavy metals and low energy value, which limits its use in agriculture and energy sectors. This study highlights a partial resolution to this problem, by mixing digested sludge with screenings in the co-hydrothermal carbonization process. The findings of this study show improvements in the properties of hydrochar including total solids measured according to ISO, inorganic fractions determined by inductively coupled plasma optical emission spectrometry and higher calorific values measured by the calorimetric bomb. Biomethane potential tests were conducted on liquid by-products. The results showed an average increase in biomethane potential from liquids obtained from co-hydrothermal carbonization compared to liquids from hydrothermal carbonization of digested sludge without screenings in series 1, 2 and 3 - up to 60 %, 40 % and 26 % for three different sludges with initial total solids content of 2.6 %, 12.5 % and 21.5 % w/w.

History

Publication

Energy 299, 131456

Publisher

Elsevier

Other Funding information

Ministry of Science and Higher Education BS/PB-400-301/24

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  • Bernal Institute

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  • Chemical Sciences

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