Abstract
Wood liquefaction in hot compressed water is modeled using the hydrolysis of Cellulose, Hemicellulose, and Lignin. These three components are reacted under catalyst-free subcritical conditions in a temperature range from 553 K to 640 K, and the heating rate ranges from 2 K/min to 6 K/min. Using a simplified reaction scheme, water-soluble products11WSP: - Water soluble products (WSP), Biocrude, char, and gas are generated through intermediates with each wood component. A modified multistage shrinking core model is employed to simulate biomass particle degradation. The reaction and kinetic regime of the hydrothermal liquefaction22HTL: -Hydrothermal Liquefaction (HTL) process are treated separately for each wood component. Although the lack of initial fast reaction kinetic data limits the development of more accurate models, computed results displayed a generous fit to data from the literature. At 593 K for a 2 K/min heating rate and particle size of 0.08 mm, biocrude shows the maximum yield of 26.87% for wood liquefaction. Although lower heating rates show fast initial lignin hydrolysis, for longer residence times, and close to the critical point, yield outputs show similar yields. Meanwhile, char and gas yields of cellulose model show maximums of 55 wt% and 25 wt% respectively at 640 K with a 2 K/min heating rate. Nevertheless, char yield values become very similar at 640 K for different heating rates for the cellulose hydrolysis model. Both cellulose and lignin hydrolysis models show better hydrolysis with smaller particle sizes. Besides, lignin decomposition shows more dependence on the particle size, where it decomposes much faster with 0.08 mm particle and slower than Cellulose with the 1 mm particle.
Highlights
Hydrothermal liquefaction (HTL) is a thermochemical conversion method which mainly produces a liquid crude oil
Wood liquefaction in hot compressed water is modeled using the hydrolysis of Cellulose, Hemicellulose, and Lignin
At 593 K for a 2 K/min heating rate and particle size of 0.08 mm, biocrude shows the maximum yield of 26.87% for wood liquefaction
Summary
Hydrothermal liquefaction (HTL) is a thermochemical conversion method which mainly produces a liquid crude oil. HTL process and hydrolysis of wood in subcritical and supercritical water have been widely investigated recently [2,3,4,5,6,7]. As the most abundant component of woody biomass, Cellulose is widely used for hydrolysis studies. Cellulose and glucose decomposition pathways in hot compressed water under catalysts free conditions are investigated by Minowa et al [19]. The activation energies for glucose decomposition to fructose did not differ much around critical point, 5-hydroxyl-methyl-furfural (5-HMF) reaction kinetics are drastically changed around 603 K due to ionic product and low density of water [21]
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