4.5 Article

Effect of simultaneous use of microwave and ultrasound irradiation on the sulfuric acid hydrolysis lignin (SAHL) depolymerization

期刊

SUSTAINABLE ENERGY & FUELS
卷 6, 期 3, 页码 861-878

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ROYAL SOC CHEMISTRY
DOI: 10.1039/d1se01879e

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资金

  1. National Research Foundation [NRF-Microwave 2019 R1A2C1006101]

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This study investigated the individual and combined effects of microwave (MW) and ultrasound (US) processes on the depolymerization of sulfuric acid hydrolysis lignin (SAHL) in a hybrid reactor. The combined use of MW and US processes resulted in higher yields of bio-oil and monomer production compared to individual use. Optimal conditions were determined through careful parameter selection and statistical analysis, demonstrating the potential of this method for converting lignin into aromatic chemicals. Future work will focus on continuous flow processes under similar optimized conditions.
In this study, the individual and combined effects of microwave (MW) and ultrasound (US) processes on the depolymerization of sulfuric acid hydrolysis lignin (SAHL) were investigated in a hybrid microwave-ultrasound chemical reactor. Results revealed that the combined use of MW and US processes led to better results in terms of high yields of bio-oil and monomer production (43.01 and 6.69 wt%), as compared to the individual use of MW (32.83 and 4.71 wt%) and US (21.60 and 3.58 wt%) processes. The highest yield of bio-oil (63.50 wt%), which contained 13.04 wt% monomers, was achieved under the optimized reaction conditions of 180 degrees C, 80 min, 30% US frequency and a 1,4-dioxane to formic acid ratio of 250 : 50 (v/v). Process parameters such as temperature, time and the content of formic acid added to 1,4-dioxane were chosen carefully and optimized using response surface methodology (RSM). The results of the statistical analysis of variance (ANOVA) showed that the depolymerization temperature and time significantly affected (rho < 0.05) the yield of bio-oil. In the liquid products, the compounds guaiacol (G1), ethanone, 1-(4-hydroxy-3-methoxyphenyl)-(G3), 2-(4-hydroxy-3-methoxyphenyl)acetaldehyde (G10), 4-ethyl phenol (H1), 4-methyl phenol (H4), and dibutyl phthalate (DBPH) were produced as major monomers. Meanwhile, the GPC results showed that the molecular weight of SAHL (M-w = similar to 2156) was significantly reduced to lower molecular weight compounds (M-w = 638). The findings obtained from this study suggest that the applied MW-US-assisted lignin depolymerization process could be a promising alternative to the separate use of the MW or US process and can pave the way to continue advancing the lignin conversion practices as a renewable and sustainable resource of aromatic chemicals. Moreover, the proposed method is believed to possess great potential for conversion of a major waste stream from a pulp industry into aromatic chemical production. Future work will be directed toward the simultaneous use of MW-US-assisted depolymerization of lignin in a continuous flow process mimicking the optimized conditions obtained under batch MW-US conditions.

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