Continuous Synthesis of a Green Fuel Additive Mixture with Highest Quantities of Solketalacetin and Solketal and Lowest Amount of Diacetin from Biodiesel-Derived Glycerol

Abstract: This work presents a continuous, easy-to-scale-up system for glycerol conversion to a valuable fuel additive mixture such as solketalacetin ((2,2-dimethyl-1,3-dioxolan-4-yl)methyl acetate), solketal and minimum amount of diacetin with no byproducts. A two-stage reaction was conducted to synthesize the mixture. At first, glycerol was reacted with acetic acid in a continuous system to synthesize monoacetin using a small plug flow reactor and central composite design to optimize the variables related to monoaceti… Show more

“…TA and acetal acetates (mainly solketal) are among the most attractive derivatives of glycerol, and one of their most studied applications is as additives for biofuels. , This prompted us to investigate the performance of products 3 / 3′ and 6 achieved in this work as additives for a commercial soybean oil-derived biodiesel. Compounds 3 / 3′ and 6 were tested as single components (10 wt % in the biodiesel) or as a 1:1 mixture (5 wt % each) to explore their effects on the biofuel density, viscosity, cloud point, and pour point.…”

Isopropenyl Acetate for the Continuous-Flow Synthesis of Triacetin, Solketal Acetate, and Allyl Acetate from Pure or Crude Glycerol

“…TA and acetal acetates (mainly solketal) are among the most attractive derivatives of glycerol, and one of their most studied applications is as additives for biofuels. , This prompted us to investigate the performance of products 3 / 3′ and 6 achieved in this work as additives for a commercial soybean oil-derived biodiesel. Compounds 3 / 3′ and 6 were tested as single components (10 wt % in the biodiesel) or as a 1:1 mixture (5 wt % each) to explore their effects on the biofuel density, viscosity, cloud point, and pour point.…”

Isopropenyl Acetate for the Continuous-Flow Synthesis of Triacetin, Solketal Acetate, and Allyl Acetate from Pure or Crude Glycerol

“…Samples were collected in a cold trap and analyzed by GC-FID. The optimum conditions for the reaction of acetic acid and glycerol were obtained in our previous work, i.e., reaction temperature of 78 °C, acetic acid to glycerol mole ratio of 3.7:1, pressure of 1 bar, and the feed flow rate of 0.9 mL·min −1 (Gorji et al, 2018). Reaction of glycerol and acetic acid was conducted under these optimum conditions to obtain a mixture with the following mole percent; remaining glycerol (30%), monoacetin (62%), and diacetin (8%).…”

“…The main heterogeneous catalysts used for ketalization and acetalization reaction include niobium-zirconium oxide catalysts ). In our previous works, a method was developed for economical synthesis of solketalacetin in two stages using a type cation-exchange resin catalyst, namely Purolite PD 206 (Gorji et al, 2016 and2018). More specifically, in the first stage, monoacetin was synthesized through the reaction of glycerol with acetic acid.…”

Synthesis of solketalacetin as a green fuel additive via ketalization of monoacetin with acetone using silica benzyl sulfonic acid as catalyst