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A review on recent developments and progress in the kinetics and deactivation of catalytic acetylation of glycerol—A byproduct of biodiesel

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  • Okoye, P.U.
  • Abdullah, A.Z.
  • Hameed, B.H.
Abstract
The increased awareness and demand for green energy sources, such as biodiesel (BD), have impelled an increase in the production of its byproduct, glycerol, which is now considered an oversupplied commodity. However, the excessive supply and physicochemical properties of glycerol render this compound as an attractive material for fine chemical synthesis, which can boost the BD market. Pathways for synthesis of fine chemicals from glycerol have been proposed by a number of researchers by using different heterogeneous or homogeneous catalysts, with the former being more environmentally benign. Glycerol acetylation pathway with acetic acid has received increased research attention because of the vast potential applications of its products. Therefore, studies were conducted to propose kinetic models for acetylation reaction and catalyst deactivation and determine parameters influencing acetylation rate. This study also provides insights into assumptions of pseudo first-order rate, PSSH, mass transfer, and diffusion limitation and discusses the future trends of catalytic acetylation of glycerol.

Suggested Citation

  • Okoye, P.U. & Abdullah, A.Z. & Hameed, B.H., 2017. "A review on recent developments and progress in the kinetics and deactivation of catalytic acetylation of glycerol—A byproduct of biodiesel," Renewable and Sustainable Energy Reviews, Elsevier, vol. 74(C), pages 387-401.
  • Handle: RePEc:eee:rensus:v:74:y:2017:i:c:p:387-401
    DOI: 10.1016/j.rser.2017.02.017
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    11. Calero, Juan & Luna, Diego & Sancho, Enrique D. & Luna, Carlos & Bautista, Felipa M. & Romero, Antonio A. & Posadillo, Alejandro & Berbel, Julio & Verdugo-Escamilla, Cristóbal, 2015. "An overview on glycerol-free processes for the production of renewable liquid biofuels, applicable in diesel engines," Renewable and Sustainable Energy Reviews, Elsevier, vol. 42(C), pages 1437-1452.
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    4. Nayebzadeh, Hamed & Haghighi, Mohammad & Saghatoleslami, Naser & Alaei, Shervin & Yousefi, Sina, 2019. "Texture/phase evolution during plasma treatment of microwave-combustion synthesized KOH/Ca12Al14O33-C nanocatalyst for reusability enhancement in conversion of canola oil to biodiesel," Renewable Energy, Elsevier, vol. 139(C), pages 28-39.
    5. Okoye, Patrick U. & Wang, Song & Khanday, Waheed Ahmad & Li, Sanxi & Tang, Tao & Zhang, Linnan, 2020. "Box-Behnken optimization of glycerol transesterification reaction to glycerol carbonate over calcined oil palm fuel ash derived catalyst," Renewable Energy, Elsevier, vol. 146(C), pages 2676-2687.
    6. Héctor Rodríguez-Rángel & Dulce María Arias & Luis Alberto Morales-Rosales & Victor Gonzalez-Huitron & Mario Valenzuela Partida & Joan García, 2022. "Machine Learning Methods Modeling Carbohydrate-Enriched Cyanobacteria Biomass Production in Wastewater Treatment Systems," Energies, MDPI, vol. 15(7), pages 1-18, March.
    7. Li, Ronghe & Wei, Zhong & Li, Hongli & Yin, Zhili & Wang, Ziqing, 2022. "Selective esterification of glycerol with acetic acid to green fuel bio-additive over a lignosulfonate-based renewable solid acid," Renewable Energy, Elsevier, vol. 201(P2), pages 125-134.

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