The effect of pretreatment on methanesulfonic acid-catalyzed hydrolysis of bagasse to levulinic acid, formic acid, and furfural

The effects of catalyst amount on the yields of levulinic and hydroxymethyl furfural were investigated during conversion of glucose to levulinic acid catalyzed by solid super acid SO42- / TiO2-Al2O3-SnO2. XRD and XPS were used to analyse the characteristics of solid super acid SO42- / TiO2-Al2O3-SnO2 before reaction and after reaction. The results showed that: solid super acid SO42- / TiO2-Al2O3-SnO2exhibited good catalytic activity in the reaction of hydrolysis of glucose to produce levulinic acid. There were three obvious peaks in these XRD spectra. The peaks on 44.6° and 67.1° were the characteristic diffraction peaks of γ-Al2O3. The anatase characteristic diffraction peak was on 37.4°. The catalyst was steady in the process. The binding energy of S 2p was similar to the binding energy of standard S6+ 2p in the S 2p XPS spectrum of solid super acid. O 1s XPS was double-peaked spectrum. The increase of element C was the main reason of inactivation of catalyst.

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Acid-catalyzed Solvolysis of Isonitriles. I

Canadian Journal of Chemistry ◽

10.1139/v71-402 ◽

1971 ◽

Vol 49 (14) ◽

pp. 2455-2459 ◽

Cited By ~ 18

Author(s):

Y. Y. Lim ◽

A. R. Stein

Keyword(s):

Formic Acid ◽

Acid Catalysis ◽

Hydrolysis Product ◽

Rate Dependence ◽

Linear Rate ◽

First Order ◽

Methyl Amine ◽

Acid Catalyzed ◽

Pseudo First Order ◽

Hydrolysis Of

The acid-catalyzed hydrolysis of methyl isonitrile has been examined. The initial hydrolysis product is N-methylformamide which is further hydrolyzed to methyl amine and formic acid at a much slower rate. The hydrolysis to N-methylformamide is pseudo-first order in methyl isonitrile and shows a linear rate dependence on concentration of general (buffer) acid at fixed pH. The significance of general acid-catalysis in terms of the mechanism of the hydrolysis is considered and taken as evidence for carbon protonation rather than nitrogen protonation as the initiating step.

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Methanesulfonic acid-catalyzed conversion of glucose and xylose mixtures to levulinic acid and furfural

Industrial Crops and Products ◽

10.1016/j.indcrop.2013.10.026 ◽

2014 ◽

Vol 52 ◽

pp. 46-57 ◽

Cited By ~ 53

Author(s):

Darryn W. Rackemann ◽

John P. Bartley ◽

William O.S. Doherty

Keyword(s):

Levulinic Acid ◽

Methanesulfonic Acid ◽

Acid Catalyzed

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Conversion of Glucose to Levulinic Acid Catalyzed by ZSM-5 Loading SO42-/ ZrO2

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.291-294.249 ◽

2013 ◽

Vol 291-294 ◽

pp. 249-252

Author(s):

Ying Liu ◽

Lu Lin ◽

Xiao Yu Sui ◽

Jun Ping Zhuang ◽

Chun Sheng Pang

Keyword(s):

Reaction Time ◽

Reaction Temperature ◽

Levulinic Acid ◽

Temperature Reaction ◽

Catalyst Amount ◽

Hydroxymethyl Furfural ◽

Ft Ir ◽

Acid Catalyzed ◽

Molar Percent ◽

Hydrolysis Of

Hydrolysis of glucose to produce levulinic acid catalyzed by ZSM-5 loading SO42-/ ZrO2 was studied in this paper. The effects of different factors such as catalyst amount, reaction temperature, reaction time on the yields of levulinic acid and hydroxymethyl furfural were investigated. It was found that the highest yield of levulinic acid was 55.03% (molar percent) under the conditions of catalyst amount 3 g, reaction temperature 180 °C and reaction time 2.5 h. Surface structure of catalyst was analyzed by FT-IR, indicating that crystallinity of catalyst was 0.66.

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Acid-Catalyzed Conversion of Cellulose Into Levulinic Acid With Biphasic Solvent System

Frontiers in Plant Science ◽

10.3389/fpls.2021.630807 ◽

2021 ◽

Vol 12 ◽

Author(s):

Changyue Ma ◽

Bo Cai ◽

Le Zhang ◽

Junfeng Feng ◽

Hui Pan

Keyword(s):

Levulinic Acid ◽

Value Added ◽

Acid Catalyst ◽

Solvent System ◽

High Yield ◽

Catalyst Loading ◽

Amberlyst 15 ◽

Hydrolysis Of Cellulose ◽

Acid Catalyzed ◽

Hydrolysis Of

In this work, acid-catalyzed conversion of cellulose into levulinic acid in a biphasic solvent system was developed. Compared to a series of catalysts investigated in this study, the Amberlyst-15 as a more efficient acid catalyst was used in the hydrolysis of cellulose and further dehydration of derived intermediates into levulinic acid. Besides, the mechanism of biphasic solvent system in the conversion of cellulose was studied in detail, and the results showed biphasic solvent system can promote the conversion of cellulose and suppress the polymerization of the by-products (such as lactic acid).The reaction conditions, such as temperature, time, and catalyst loading were changed to investigate the effect on the yield of levulinic acid. The results indicated that an appealing LA yield of 59.24% was achieved at 200°C and 180 min with a 2:1 ratio of Amberlyst-15 catalyst and cellulose in GVL/H2O under N2 pressure. The influence of different amounts of NaCl addition to this reaction was also investigated. This study provides an economical and environmental-friendly method for the acid-catalyzed conversion of cellulose and high yield of the value-added chemical.

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Formic Acid Catalyzed Hydrolysis of SO3in the Gas Phase: A Barrierless Mechanism for Sulfuric Acid Production of Potential Atmospheric Importance

Journal of the American Chemical Society ◽

10.1021/ja207393v ◽

2011 ◽

Vol 133 (43) ◽

pp. 17444-17453 ◽

Cited By ~ 94

Author(s):

Montu K. Hazra ◽

Amitabha Sinha

Keyword(s):

Sulfuric Acid ◽

Formic Acid ◽

Gas Phase ◽

Acid Production ◽

Sulfuric Acid Production ◽

Acid Catalyzed ◽

Hydrolysis Of

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Solid residue and by-product yields from acid-catalysed conversion of poplar wood to levulinic acid

Chemical Papers ◽

10.1007/s11696-019-01013-3 ◽

2019 ◽

Vol 74 (5) ◽

pp. 1647-1661

Author(s):

G. Hurst ◽

I. Brangeli ◽

M. Peeters ◽

S. Tedesco

Keyword(s):

Formic Acid ◽

Acid Production ◽

Levulinic Acid ◽

Solid Residue ◽

Poplar Wood ◽

Reaction Conditions ◽

Acid Yield ◽

Renewable Chemicals ◽

Microwave Assisted ◽

Hydrolysis Of

AbstractThis study examines the yields of solid residue and by-product from the microwave-assisted acid hydrolysis of lignocellulosic poplar wood for levulinic acid production. The aim of this study was to optimise levulinic acid production via response surface methodology (RSM) and also investigate the effect of reaction conditions on other products such as furfural, solid residue, formic acid and acetic acid yields. A maximum theoretical levulinic acid yield of 62.1% (21.0 wt %) was predicted when reaction conditions were 188 °C, 126 min and 1.93 M sulphuric acid, with a corresponding solid residue yield of 59.2 wt %. Furfural from the hydrolysis of hemicellulose was found to have significantly degraded at the optimum levulinic acid yield conditions. The investigation of formic acid yields revealed lower formic acid yields than stoichiometrically expected, indicating the organic acid reactions under microwave-assisted hydrolysis of lignocellulose. The solid residue yields were found to increase significantly with increasing reaction time and temperature. The solid residue yields under all conditions exceeded that of levulinic acid and, therefore, should be considered a significant product alongside the high-value compounds. The solid residue was further examined using IR spectra, elemental analysis and XRF for potential applications. The overall results show that poplar wood has great potential to produce renewable chemicals, but also highlight all by-products must be considered during optimization.

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