Solvent-free heteropolyacid-catalyzed glycerol ketalization at room temperature

Silva, M. J. da; Júlio, Armanda Aparecida; Dorigetto, F. C. S.

doi:10.1039/c4ra17090c

Cited by 56 publications

(33 citation statements)

References 37 publications

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“…da Silva et al ( 2015b ) evaluated the activity of various Brønsted acid catalysts e.g., HPW, H 2 SO 4 , p-toluene sulfonic acid, PMo, or SiW on glycerol ketalization with different ketones (e.g., propanone, butanone, cyclopentanone, and cyclohexanone) at room temperature and in the absence of an auxiliary solvent. The HPW sample exhibited the highest activity among the Brønsted acid catalysts and exhibited high (> 85%) selectivity toward five-membered (solketal) cyclic ketals.…”

Section: Catalytic Acetalization Of Glycerolmentioning

confidence: 99%

A Review on the Catalytic Acetalization of Bio-renewable Glycerol to Fuel Additives

et al. 2018

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The last 20 years have seen an unprecedented breakthrough in the biodiesel industry worldwide leads to abundance of glycerol. Therefore, the economic utilization of glycerol to various value-added chemicals is vital for the sustainability of the biodiesel industry. One of the promising processes is acetalization of glycerol to acetals and ketals for applications as fuel additives. These products could be obtained by acid-catalyzed reaction of glycerol with aldehydes and ketones. Application of different supported heterogeneous catalysts such as zeolites, heteropoly acids, metal-based and acid-exchange resins have been evaluated comprehensively in this field. In this review, the glycerol acetalization has been reported, focusing on innovative and potential technologies for sustainable production of solketal. In addition, the impacts of various parameters such as application of different reactants, reaction temperature, water removal, utilization of crude-glycerol on catalytic activity in both batch and continuous processes are discussed. The outcomes of this research will therefore significantly improve the technology required in tomorrow's bio-refineries. This review provides spectacular opportunities for us to use such renewables and will consequently benefit the industry, environment and economy.

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Section: Catalytic Acetalization Of Glycerolmentioning

confidence: 99%

A Review on the Catalytic Acetalization of Bio-renewable Glycerol to Fuel Additives

et al. 2018

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“…Under these conditions, it was found that PW was the most active catalyst, achieving a solketal selectivity of 97% at a conversion of 90%. Other ketal derivatives were prepared by using cyclic and acyclic ketones 266 . Supported heteropolyacids have been used as catalysts for this transformation.…”

Section: Solketal Productionmentioning

confidence: 99%

Heteropolycompounds as catalysts for biomass product transformations

et al. 2016

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“…They need to work at approximately 70 °C for a long reaction time. Heteropoly acid H 3 PW 12 O 40 (HPW) was used for solketal synthesis at room temperature, but H 3 PW 12 O 40 is a homogeneous catalyst that is difficult to recycle . The heteropoly acid salt Cs2.5 is water tolerant, possesses an acid strength comparable to that of H 3 PW 12 O 40 and has a high surface area .…”

Section: Introductionmentioning

confidence: 99%

“…Heteropoly acid H 3 PW 12 O 40 (HPW) was used for solketals ynthesis at room temperature, but H 3 PW 12 O 40 is ah omogeneous catalystt hat is difficultt or ecycle. [10] Theh eteropoly acid salt Cs2.5 is water tolerant, possesses an acid strength comparable to that of H 3 PW 12 O 40 and has ah igh surface area. [19] This materiali sa lso interesting to explore as ac atalyst for glycerol acetalization with acetone.…”

Section: Introductionmentioning

confidence: 99%

“…A drawback in the formation of acetals and ketals from glycerol is the production of water, which would deactivate the catalyst and facilitate the reversibility of the reaction. To solve this problem, water‐tolerant heterogeneous catalysts, for example zeolite beta, heteropoly compounds, oxides and phosphates and organic–inorganic composites have been studied extensively. As established in our previous study, the heteropoly compound Cs 2.5 H 0.5 PW 12 O 40 (Cs2.5) is very active and selective for glycerol acetalization with aqueous formaldehyde solution (37 %) as it has both a high surface area and high acid strength .…”

Section: Introductionmentioning

confidence: 99%

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Highly Efficient Glycerol Acetalization over Supported Heteropoly Acid Catalysts

et al. 2018

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The acetalization of glycerol with acetone to yield solketal was catalyzed by Cs2.5H0.5PW12O40 (Cs2.5) supported on mesoporous silica under mild conditions. It gave a high glycerol conversion and selectivity to the targeted product even at room temperature (23 °C). We studied the use of both bulk and supported Cs2.5 as catalysts in another highly efficient glycerol acetalization reaction with paraformaldehyde, which gave much higher activity than with formaldehyde solution. For the reaction with acetone, the supported Cs2.5 showed a higher activity than the bulk material because of the high surface area of the mesoporous support. Interestingly, the supported Cs2.5 gave a lower conversion than the bulk for the reaction with paraformaldehyde. This is probably because of the high viscosity of the reaction system with the solid reagent paraformaldehyde. Overall, there is a complex relationship between catalyst, reaction conditions, which include the molar ratio of reactants and temperature, reaction mechanism and thermodynamics that affects the achieved activity and byproduct formation. A discussion about these interactions is included for each reaction.

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Solvent-free heteropolyacid-catalyzed glycerol ketalization at room temperature

Cited by 56 publications

References 37 publications

A Review on the Catalytic Acetalization of Bio-renewable Glycerol to Fuel Additives

A Review on the Catalytic Acetalization of Bio-renewable Glycerol to Fuel Additives

Heteropolycompounds as catalysts for biomass product transformations

Highly Efficient Glycerol Acetalization over Supported Heteropoly Acid Catalysts

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