Recovery and utilization of crude glycerol, a biodiesel byproduct

Liu, Yujia; Zhong, Biqi; Lawal, Adeniyi

doi:10.1039/d2ra05090k

Cited by 31 publications

(28 citation statements)

References 102 publications

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“…Plant oil and fat represent the main resources for triglycerides that are hydrolyzed into fatty acids and glycerol by chemical or enzymatic processes [4,20]. Though industrial use of plant oil and fat, for example, for biodiesel production from triglycerides as an alternative to petrochemical diesel or for monomer synthesis, competes with food production, only cooking oil available as waste from industry, restaurants, or household should be utilized for fatty acid manufacturing.…”

Section: Sources For the Starting Materialsmentioning

confidence: 99%

Crosslinked polymers based on monomers derived from renewable resources and their application potential

Strehmel

2023

Applied Research

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Possible structural variation of a bio‐based dimethacrylate derived from oleic acid and ethylene glycol is discussed as well as sources to obtain the starting material for manufacturing this monomer. Introduction of an aromatic structure either as a bridge between the two ester structures formed or as a substituent is expected to influence the properties of both the monomer and polymer made of it, for example, by photoinitiated polymerization. Furthermore, aspects influencing the transfer of a new product are included in the discussion as well to increase the interest of researchers working in the industry on manufacturing a new product and its development for the market.

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Section: Sources For the Starting Materialsmentioning

confidence: 99%

Crosslinked polymers based on monomers derived from renewable resources and their application potential

Strehmel

2023

Applied Research

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Section: Introductionmentioning

confidence: 99%

“…Glycerol, a renewable, low-cost, and widely available compound, is a waste product from the transesterification of vegetable oils for biodiesel production—10% m/m of the products is glycerol [ 1 , 2 , 3 , 4 ]. Given that the rate of world biodiesel production is high, new applications for glycerol as a platform molecule for the chemical industry must be found [ 2 , 3 , 4 , 5 ]. The industrial demand for value-added products, including C3 compounds such as glyceric acid, tartronic acid, glyceraldehyde, dihydroxyacetone, hydroxypyruvic acid, and mesoxalic acid derived from glycerol oxidation, is high because these compounds have numerous commercial applications.…”

Section: Introductionmentioning

confidence: 99%

Glycerol Electro-Oxidation in Alkaline Medium with Pt-Fe/C Electrocatalysts Synthesized by the Polyol Method: Increased Selectivity and Activity Provided by Less Expensive Catalysts

2023

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We have investigated platinum catalysts containing iron as a modifier to obtain catalysts with superior electrocatalytic activity toward glycerol electro-oxidation in an alkaline medium. The electrocatalysts, supported on carbon Vulcan, were synthesized by the polyol method. The physicochemical characterization data showed that the metals were well distributed on the carbon support and had small particle size (2 nm). The Pt:Fe metal ratio differed from the nominal composition, indicating that reducing iron with platinum was difficult, even though some parameters of the synthesis process were changed. Electrochemical analyses revealed that PtFe/C was more active and stable than commercial Pt/C was, and analysis of the electrolysis by-products showed that iron addition to Pt/C boosted the glycerol conversion and selectivity for glyceric acid formation.

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“…[12] SOURCES FOR THE STARTING MATERIAL Plant oil and fat represent main resources for triglycerides that are hydrolyzed into fatty acids and glycerol by chemical or enzymatic processes. [4,15] Though industrial use of plant oil and fat e. g. for biodiesel production from triglycerides as alternative to petrochemical diesel or for monomer synthesis compete with food production, only cooking oil available as waste from industry, restaurants or household should be utilized for fatty acid manufacturing. Furthermore, the glycerol formed as by-product in the biodiesel production may be useful for esterification of oleic acid instead of using ethylene glycol as shown in Scheme 1.…”

Section: Introductionmentioning

confidence: 99%

Crosslinked Polymers Based on Monomers Derived from Renewable Resources and Their Application Potential

Strehmel

2023

Preprint

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Possible structural variation of a bio-based dimethacrylate derived from oleic acid and ethylene glycol is discussed as well as sources to obtain the starting material for manufacturing of this monomer. Furthermore, aspects influencing the transfer of a newly developed product or further scientific result to application are included into the discussion as well focusing to manufacturing processes and development of a new product for the market.

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Recovery and utilization of crude glycerol, a biodiesel byproduct

Abstract: In this review, we summarize the latest technologies for the recovery and purification of crude glycerol and applications of crude glycerol, with focus on its chemical conversion.

Cited by 31 publications

References 102 publications

Crosslinked polymers based on monomers derived from renewable resources and their application potential

Crosslinked polymers based on monomers derived from renewable resources and their application potential

Glycerol Electro-Oxidation in Alkaline Medium with Pt-Fe/C Electrocatalysts Synthesized by the Polyol Method: Increased Selectivity and Activity Provided by Less Expensive Catalysts

Crosslinked Polymers Based on Monomers Derived from Renewable Resources and Their Application Potential

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