4.7 Article

Evaluation of the aerobic biodegradability of process water produced by hydrothermal carbonization and inhibition effects on the heterotrophic biomass of an activated sludge system

Journal

JOURNAL OF ENVIRONMENTAL MANAGEMENT
Volume 299, Issue -, Pages -

Publisher

ACADEMIC PRESS LTD- ELSEVIER SCIENCE LTD
DOI: 10.1016/j.jenvman.2021.113561

Keywords

Activated sludge inhibition; Aerobic biodegradability; Carbon oxidation; Hydrothernal carbonization; Process water; Sewage sludge

Funding

  1. European Regional Development Fund (ERDF) Investment for Growth and Jobs Programme 2014-2020
  2. Autonomous Province of Bolzano [FESR1104]

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This study assessed the aerobic biodegradability of process water produced by hydrothermal carbonization of dewatered anaerobic digested sludge and its toxicity on the heterotrophic activated biomass of conventional activated sludge systems. The results showed that the process water was highly biodegradable and did not have short-term toxic effects on the activated sludge.
In this work, the aerobic biodegradability of the process water (PW) produced by hydrothermal carbonization (HTC) of dewatered anaerobic digested sludge and the toxicity assessment in regard to the heterotrophic activated biomass of a conventional activated sludge systems, are described. Such assessments are not yet reported in other scientific papers, so this paper seeks to contribute to the increase of knowledge regarding the valorization of the HTC process applied in a wastewater treatment plant (WWTP). For such purpose, two different respirometric techniques were applied - multi-OUR respirometry and manometric respirometry. PW resulted highly biodegradable: 83% of total COD was biodegradable, with a 58% of readily biodegradable (rbCOD) fraction. The BOD5/COD ratio was 0.42. Further, it was characterized by a high concentration of volatile fatty acids (VFAs) (i. e. 2031 mg/L), of which the major constituent was acetic acid (i.e. 80%), an easily degradable intermediate of many biological processes. Both the respirometric techniques showed that the assessed PW, after being diluted accordingly with the WWTP real operational conditions, did not imply short-term toxic effects on the activated sludge, neither using fresh biomass nor keeping the same one. According to these results, the recirculation of PW at the water line of WWTPs represents a promising approach not affected by specific toxicity issues, especially when the HTC process is integrated into a WWTP scheme.

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