Numéro |
Sci. Tech. Energ. Transition
Volume 79, 2024
The Role of Negative Emissions Technologies in 2050 Decarbonation Pathways
|
|
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Numéro d'article | 3 | |
Nombre de pages | 8 | |
DOI | https://doi.org/10.2516/stet/2023043 | |
Publié en ligne | 9 janvier 2024 |
Regular Article
Low-temperature and Low-pressure HydroThermal Liquefaction (L-HTL) of biomass using ultrasonic cavitation to achieve a local supercritical state in water
Institute of Chemistry, University of Tartu, 14a Ravila St., 50411 Tartu, Estonia
* Corresponding author: jyriliiv@ut.ee
Received:
15
October
2022
Accepted:
19
December
2023
HydroThermal Liquefaction (HTL) is a process that involves the reaction of polymer compounds such as cellulose, lignin, synthetic plastics, etc. with near-critical or supercritical water to form low molecular weight liquid compounds, similar to natural oil which is believed to have formed over millions of years. Compared to other biomass recovery methods such as pyrolysis or anaerobic digestion, HTL is highly efficient with an energy efficiency of up to 90%, while the others have an efficiency of only around 30%. However, traditional HTL requires extremely high temperatures (250–450 °C) and pressures (100–350 bar), which are challenging to achieve using large-scale industrial equipment. This study proposes the use of ultrasonic cavitation to induce a supercritical state in water locally, rather than throughout the entire reactor, making it possible to perform HTL reactions using inexpensive and simple devices. The study demonstrates the successful conversion of pure cellulose to low molecular weight liquid compounds using potassium hydroxide as a catalyst.
Key words: HydroThermal Liquefaction / Synthetic fuels / Biowastes
© The Author(s), published by EDP Sciences, 2024
This is an Open Access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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