Catalytic Acetalization: An Efficient Strategy for High-Value Utilization of Biodiesel-Derived Glycerol

Sun, Suqun; He, Min; Dai, Yuanwei; Li, Xin; Liu, Zhijun; Li, Yao

doi:10.3390/catal7060184

Cited by 10 publications

(8 citation statements)

References 27 publications

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“…The drawback of this system was its very long reaction time (21–36 h). Generally, the reaction of glycerol with aldehydes/ketones is conducted under homogenous Lewis catalysts (Ruiz et al, 2010 ) or mineral acids such as HF, HCl, H 3 PO 4 , H 2 SO 4 , and p-toluenesulfonic acid (pTSA) to form solketal (1,2-isopropylidene glycerol, 2,2-dimethyl-1, or 3-dioxolane-4-methanol) (Sato et al, 2008 ; Coleman and Blankenship, 2010 ; Suriyapradilok and Kitiyanan, 2011 ; Nanda et al, 2014a ; Sun et al, 2017 ). The first generation of studies was stopped more than half a century ago due to the economic barriers.…”

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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“…In [17], the authors used sulfonic ILs in the acetalization reaction of cyclohexanone and glycerin. They showed that the sample [MeSO 3 bmim][MeSO 4 ] is capable of achieving glycerol conversion of up to 86% (Table 3), with a selectivity for six-membered acetal of 28%.…”

Section: Homogeneous Catalysts For Acetalizationmentioning

confidence: 99%

“…To produce value-added chemical compounds, oxidation, dehydration, acetylation, and ammoxidation can be used. Of special interest are the acetalization reactions of glycerol from biodiesel processes into various oxygenated fuel additives [16][17][18]. A literature review was conducted to identify the number of articles published in the journals indexed in Web of Science and Scopus using a basic search for the articles containing information about the formation of acetals or ketals from glycerol.…”

Section: Introductionmentioning

confidence: 99%

Acetalization Catalysts for Synthesis of Valuable Oxygenated Fuel Additives from Glycerol

2018

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Biodiesel is one of the most attractive sources of clean energy. It is produced by the transformation of vegetable oils with up to 10% formation of glycerol as a by-product. Therefore, development of new approaches for processing bio-glycerol into such value-added chemical compounds as solketals is necessary. Thus, various six- and five-membered cyclic compounds can be prepared by acetalization of glycerol with aldehyde or ketone. The resulting glycerol oxygenates are excellent fuel additives that increase viscosity, octane or cetane number, and stability to oxidation. In addition, these products significantly reduce carbon monoxide emissions from standard diesel fuel. In this review, we highlight recent advances in the glycerol valorization for the sustainable production of bio-additives. The review includes a discussion of the innovative and potential catalysts to produce solketals.

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“…Traditional chemical syntheses are the most widely used methods in the large-scale preparation of glycerol carbonate directly from glycerol. With glycerol used as starting material, glycerol carbonate is obtained via chemical processes, such as carbonation with carbon dioxide [26][27][28] or carbon monoxide in the presence of oxidants [29,30], trans-carbonation with phosgene [21] or urea and its derivatives [31][32][33][34][35], and transesterification with simple carbonate esters (Figure 3) [15][16][17][18][19][20]. Transesterification of glycerol has significant advantages over other methodologies in the following aspects: (1) avoiding the employment and release of poisonous gases and toxic reagents; (2) higher activity and selectivity; (3) shorter reaction time and higher conversion; (4) free of solvent and simple separation of catalyst; and (5) environmentally friendly and intrinsically safe.…”

Section: Introductionmentioning

confidence: 99%

Recent Development of Heterogeneous Catalysis in the Transesterification of Glycerol to Glycerol Carbonate

2019

Catalysts

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Glycerol is one of the most crucial by-products in the production of biodiesel, and owing to its oversaturation in the market, several synthetic strategies have been developed to transform it into other higher value-added products such as glycerol carbonate, epichlorohydrin, 1,3-propanediol, etc. Amongst them, glycerol carbonate is considered to be the most valuable product. Considering the facile separation and reusability of catalyst, heterogeneous base catalysts have attracted considerable attention due to the obvious advantages over Brϕnsted acid and homogeneous base catalysts in the transesterification of glycerol. Herein, we will give a short overview on the recent development of the heterogeneous catalysis in the transesterification of glycerol with dialkyl carbonate. Focus will be concentrated on the heterogeneous base catalysts including alkaline-earth metal oxides (MgO, CaO, and mixed oxides), hydrotalcites, zeolites, clinoptilolites, organic bases, etc. Their catalytic mechanisms during the heterogeneous process will be elucidated in detail.

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Catalytic Acetalization: An Efficient Strategy for High-Value Utilization of Biodiesel-Derived Glycerol

Cited by 10 publications

References 27 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

Acetalization Catalysts for Synthesis of Valuable Oxygenated Fuel Additives from Glycerol

Recent Development of Heterogeneous Catalysis in the Transesterification of Glycerol to Glycerol Carbonate

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