Journal
JOURNAL OF ENVIRONMENTAL MANAGEMENT
Volume 345, Issue -, Pages -Publisher
ACADEMIC PRESS LTD- ELSEVIER SCIENCE LTD
DOI: 10.1016/j.jenvman.2023.118819
Keywords
Organic solid wastes; Hydrochar; Aqueous organics; Physicochemical property; Seawater
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This study investigates the impact of seawater and deionized water conditions on the physicochemical properties of hydrochar obtained from Co-hydrothermal carbonization of chicken manure and cornstalk. The results show that seawater conditions promote the hydrolysis reaction of organic solid waste and affect the fuel quality and structure of the hydrochar. This research provides a theoretical foundation for preparing solid fuels and materials using hydrothermal carbonization with saltwater as supplemental moisture.
The use of seawater as a substitute for pure water as supplemental moisture raises questions about its effect on the physicochemical properties of hydrochar. Therefore, this study aimed to investigate the feasibility of using seawater as supplemental moisture by comparing the physicochemical properties of products obtained through Co-hydrothermal carbonization of chicken manure and cornstalk under seawater and deionized water conditions. By varying the HTC temperature and blending ratios of CM and CS to investigate comprehensively the effect of seawater. Results indicated that the hydrochar yield experienced a variation from 54.54% to 57.40%, while the IC value changed from 7.69% to 8.46% as the ratio of CM:CS shifted from 3:1 to 1:3 under seawater conditions. The higher heating value of the hydrochars obtained under seawater conditions was lower than those obtained under deionized water conditions. This suggests that seawater conditions promote the hydrolysis reaction of organic solid waste. Furthermore, it was observed that when no lignin hydrolysis reaction occurred, seawater conditions had no discernible effect on the fuel quality of the hydrochar. However, at an HTC temperature of 250 degrees C, the fuel quality of the hydrochar obtained under seawater conditions was notably inferior to that of the hydrochar obtained under deionized water. Thus, an HTC temperature lower than 250 degrees C is necessary for the hydrothermal carbonization of organic solid waste under seawater conditions. Moreover, the relative content of surface-C-(C, H)/C--C of the hydrochar obtained under seawater conditions was lower than that obtained under deionized water conditions, indicating that the hydrochar had a low degree of aromatization. Additionally, there was a significant increase in the immobilized Mg atoms in the hydrochar under seawater conditions, which affected the hydrochar yield and higher heating value of the hydrochar. This research presents a theoretical foundation for preparing solid fuels and materials using hydrothermal carbonization of saltwater as supplemental moisture.
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