Homogeneous and Heterogeneous Catalytic Kinetics in the Production of Triethyl Citrate

Bohórquez, Wilson F.; Osorio-Pascuas, Oscar M.; Santaella, Miguel A.; Orjuela, Álvaro

doi:10.1021/acs.iecr.0c03690

Cited by 8 publications

(3 citation statements)

References 22 publications

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“…Despite the merits of heterogenous catalyst, when comparing between using homogenous and heterogenous catalysts to produce TBC and TEC, it does not always guarantee the highest yield. Kinetic studies found that at specified conditions the homogenous catalyst (methane sulfonic acid), showed a higher catalytic performance compared to the heterogenous one (Amberlyst 70) for TBC 57 and for TE 61 …”

Section: Citrates Biobased Plasticizermentioning

confidence: 99%

Developments of biobased plasticizers for compostable polymers in the green packaging applications: A review

Alhanish

Ghalia

2021

Biotechnology Progress

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The demand for biobased materials for various end‐uses in the bioplastic industry is substantially growing due to increasing awareness of health and environmental concerns, along with the toxicity of synthetic plasticizers such as phthalates. This fact has stimulated new regulations requiring the replacement of synthetic conventional plasticizers, particularly for packaging applications. Biobased plasticizers have recently been considered as essential additives, which may be used during the processing of compostable polymers to enormously boost biobased packaging applications. The development and utilization of biobased plasticizers derived from epoxidized soybean oil, castor oil, cardanol, citrate, and isosorbide have been broadly investigated. The synthesis of biobased plasticizers derived from renewable feedstocks and their impact on packaging material performance have been emphasized. Moreover, the effect of biobased plasticizer concentration, interaction, and compatibility on the polymer properties has been examined. Recent developments have resulted in the replacement of synthetic plasticizers by biobased counterparts. Particularly, this has been the case for some biodegradable thermoplastics‐based packaging applications.

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Section: Citrates Biobased Plasticizermentioning

confidence: 99%

Developments of biobased plasticizers for compostable polymers in the green packaging applications: A review

Alhanish

Ghalia

2021

Biotechnology Progress

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“…[39][40][41] Moreover, TBC is useful as a solvent in the manufacturing of inks and coatings. [42] Tributyl citrate is typically synthesized via esterification of citric acid with 1butanol (BuOH) in the presence of a catalyst commonly sulfuric acid, p-toluenesulfonic acid, [43,44] ion-exchange resin [45][46][47] and supported [48][49][50] or solid acids. [51] Once the reaction is complete, the TBC is typically purified by distillation to remove any remaining water and unreacted starting materials.…”

Section: Introductionmentioning

confidence: 99%

Water‐Doped Brønsted Acidic Protic Ionic Liquids for Enhanced Tributyl Citrate Synthesis in a Two‐Phase Esterification System

Więcławik,

Brzęczek‐Szafran,

Barteczko

et al. 2024

Chemistry An Asian Journal

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Tributyl citrate (TBC) plays a crucial role as a plasticizer, enhancing the flexibility of polymers like polyvinyl chloride. Its biodegradability and non‐toxic nature contribute to its eco‐friendly appeal, making it a preferred additive in diverse industries, including food packaging, medical devices, toys, and consumer goods. Herein, a method for the synthesis of TBC using inexpensive Brønsted acidic protic ionic liquids (ILs) in a two‐phase reaction system is presented. The esterification process is carried out with high yield (>99%), selectivity (up to 98%) and short reaction time of 2h. The catalyst in the form of IL shows excellent performance and stability, desirable for industrial applications.

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“…Glycerides and free fatty acids (FFA) in vegetable oils or animal fats can be converted to fatty acid alkyls esters (FAAE) by reactions with alcohols or esters. When the alkyl groups are methyl, these mixtures of fatty acid methyl esters (FAME), the biodiesel, have received considerable attention as diesel fuel substitutes, mainly if obtained through glycerol-free routes and from cheaper raw materials, such as vegetable oils with a high content of FFA, that provide better economic conditions for industries and mitigate the environmental problems. − In this regard, the simultaneous acid reaction systems of FAME production between a low-cost glyceride feedstock and alcohols or esters become a promising alternative. For this route, unlike two-stage biodiesel production (the acid-catalyzed FFA reaction followed by the alkali-catalyzed glycerides reaction), the fixed and operating costs are lower. , For high acidity feedstocks, the FAME production from FFA becomes essential to obtain high biodiesel yields .…”

Section: Introductionmentioning

confidence: 99%

Kinetic and Nonideal VLE Modeling for Transesterification Reactions from FFA and Methyl Acetate at High Temperature and Pressure Considering Volatilization Effects/Influence

Brondani

Visioli

Castilhos

2021

Ind. Eng. Chem. Res.

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A model has been proposed considering the compounds’ volatilization influence in simultaneous nonideal phase equilibrium, reaction kinetics, and chemical equilibrium for batch transesterification reactions from free fatty acids at high pressure and temperature. Phase nonideality was modeled using the “φ – φ” method. Different kinetic and thermodynamic modeling approaches were applied and tested, and their parameters were estimated from the reaction data of oleic acid with methyl acetate catalyzed by niobium phosphate. Kinetic data at conditions of the liquid–vapor system were measured/obtained by varying the temperature, molar ratio, and initial reaction volume. The hypothesis of volatilization influence was evaluated and proved to be very relevant to ensure the model fitting, which its use proved necessary mainly for experiments with different initial ratios of the reaction volume/headspace or scale-up process. Auxiliary model hypotheses were evaluated. For the applied transesterification system, a study of volatilization influence was carried out and the simultaneous proposed model proved to fit data very well.

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Homogeneous and Heterogeneous Catalytic Kinetics in the Production of Triethyl Citrate

Cited by 8 publications

References 22 publications

Developments of biobased plasticizers for compostable polymers in the green packaging applications: A review

Developments of biobased plasticizers for compostable polymers in the green packaging applications: A review

Water‐Doped Brønsted Acidic Protic Ionic Liquids for Enhanced Tributyl Citrate Synthesis in a Two‐Phase Esterification System

Kinetic and Nonideal VLE Modeling for Transesterification Reactions from FFA and Methyl Acetate at High Temperature and Pressure Considering Volatilization Effects/Influence

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