Changes and release risk of typical pharmaceuticals and personal care products in sewage sludge during hydrothermal carbonization process

Hydrochars were obtained by hydrothermal carbonization treatment of municipal sewage sludge. Effects of reaction temperature (180–300 °C) and reaction time (2–15 h) on structural characteristics of the hydrochars, and changes and release risk of typical pharmaceuticals and personal care products (PP...

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Bibliographic Details
Published in:Chemosphere (Oxford) 2021-12, Vol.284, p.131313-131313, Article 131313
Main Authors: Wang, Fei, Yin, Zheyun, Liu, Yarui, Sun, Hongwen, Zhu, Hongkai, Chen, Hao, Zhang, Kai
Format: Article
Language:English
Subjects:
Hydrochar
Pharmaceuticals and personal care products
Release risk
Sewage sludge
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Summary:Hydrochars were obtained by hydrothermal carbonization treatment of municipal sewage sludge. Effects of reaction temperature (180–300 °C) and reaction time (2–15 h) on structural characteristics of the hydrochars, and changes and release risk of typical pharmaceuticals and personal care products (PPCPs) in the hydrochars were investigated. Reaction temperature played a more important role than reaction time on hydrochar properties and decarboxylation reaction was the primary process during the converting of sludge to hydrochars. The sludge hydrochars had higher yields, carbon recovery rates, polarity and less aromaticity than biochars. Hydrothermal process reduced PPCPs’ load in sludge hydrochars effectively except caffeine and acetaminophen. The hydrochars prepared at intermediate and high temperatures (240 and 300 °C) had higher caffeine concentrations than the original sludge, which can be ascribed to the transformation of N-containing precursors. The highest CaCl2 extracted caffeine concentration occurred at intermediate temperature of 240 °C (48.1 μg/kg) due to the stronger affinity of caffeine in the high-temperature hydrochars. Caffeine was not detected in hydroxypropyl-β-cyclodextrin (HPCD) extract. Hydrochars prepared at low temperature (180 °C) had a higher acetaminophen concentration than the original sludge, which was attributed to the high thermal stability temperature of acetaminophen. Low- and intermediate-temperature hydrochars had higher CaCl2 extracted acetaminophen concentrations. The HPCD extracted acetaminophen was low with a range of nd to 6.72 μg/kg. In conclusion, PPCPs are less likely to constitute a limiting factor on the farm application of sludge hydrochar. This study provides theoretical support for the safe application of sludge hydrochar in the farmland. [Display omitted] •Decarboxylation was the primary process during the converting of sludge to hydrochar.•Hydrothermal process reduced PPCPs' load in sludge except caffeine and acetaminophen.•Higher caffeine in hydrochars was atributed to the transformation of precursors.•Higher acetaminophen in hydrochars was attributed to its high thermal stability.•Hydrothermal treatment at 180 °C of 2 h was suggested considering safety and economy.
ISSN:0045-6535
1879-1298
DOI:10.1016/j.chemosphere.2021.131313