Biofuel that Keeps Glycerol as Monoglyceride by 1,3-Selective Ethanolysis with Pig Pancreatic Lipase Covalently Immobilized on AlPO4 Support

Luna, Carlos; Sancho, Enrique; Luna, Diego; Caballero, Verónica; Calero, Juan; Posadillo, Alejandro; Verdugo, Cristóbal; Bautista, Felipa M.; Romero, Antonio A.

doi:10.3390/en6083879

Cited by 29 publications

(69 citation statements)

References 76 publications

(165 reference statements)

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“…Thus, reactions were carried out with 0.8 g of 10 wt% supported KF on the three inorganic solids, Al 2 O 3 , ZnO and MgO, at 65 ºC reaction temperature with 12 mL of sunflower oil (32 cSt, kinematic viscosity) and 2.43 mL of methanol. According to the results, with all the three KF supported catalysts studied, under the indicated experimental conditions, were obtained similar results as those achieved in the enzymatic processes [19][20][21][22][23][24], where instead of glycerol are obtained the monoacylglycerol that are soluble in the FAME mix. The experimental conditions currently applied were clearly softer than those required for the production of conventional biodiesel with supported KF catalysts [29][30][31][32][33][34][35][36].…”

Section: Influence Of the Inorganic Solid Used As Support Of Kf On Prsupporting

confidence: 63%

“…By difference and respect to the internal standard (cetane), the amount of triglycerides (TG) which has not reacted, is calculated. The Conversion includes the total amount of triglyceride transformed (FAME + MG + DG) in the methanolysis process and Selectivity makes reference to the relative amount of FAME + MG obtained, which exhibit retention times (RT < 25) similar to conventional diesel fuel [20,21,27].…”

Section: Methodsmentioning

confidence: 99%

“…As carrier gas helium is used, with a flow of 1.5 ml/min, it has been applied a heating ramp from 50 °C to 200 °C at a rate of 7 °C/min, followed by another ramp from 200 °C to 360 °C at a rate of 15 ºC/min, maintaining the oven temperature at 360 °C for 10 minutes using as internal standard n-hexadecane (cetane) to quantify the content of methyl esters and glycerides (-mono, di and triglycerides) with the help of some commercial standard fatty acid esters, respectively. This method allows us to obtain a complete analysis of the sample in a single injection and in a time not higher than 65 minutes, which simplifies the process and increases the speed of analysis [19][20][21][22][23][24].…”

Section: Methodsmentioning

confidence: 99%

“…In this respect it is interesting to point out in this respect that according to recent studies the presence of MG enhances the lubricating properties of the biofuel [25,26]. So far this process is being developed not only with PPL but also with some microbial lipases, both in free and immobilized forms [19][20][21][22][23][24].…”

Section: Introductionmentioning

confidence: 99%

“…This enzymatic method has shown promising results [19][20][21][22][23][24] in the obtaining of a new biofuel, named Ecodiesel-100, patented by University of Cordoba [22] using pig pancreatic lipase (PPL) to obtain the enantioselective ethanolysis of sunflower oil. This method takes advantage of the 1.3-selective nature of many lipases, which allows stopping the process in the second step of the alcoholysis reaction to obtain a mixture of two moles of FAEE and one MG.…”

Section: Introductionmentioning

confidence: 99%

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Production of a Biofuel that Keeps the Glycerin as Monoglycerides by Using Supported KF as Heterogeneous Catalyst

Calero

Cumplido

Luna

et al. 2014

Proceedings of 1st International E-Conference on Energies

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This study describes the results obtained in the synthesis of a biofuel that avoids the glycerol production by applying supported KF as alkaline heterogeneous catalyst, to generate two moles of fatty acid methyl esters and one mole of monoglyceride, from one mol of triglyceride. In this respect, the selective transesterification process of sunflower oil with methanol was carried out with KF10 wt % supported on three different solids, Al 2 O 3 , ZnO and MgO. The standard experimental conditions employed in the heterogeneous selective methanolysis reaction were: 12 mL of sunflower oil, 2.7 mL of methanol, 0.8 g of catalyst, at 65 °C temperature and one hour of reaction time. In all cases were obtained 100% conversion, with high selectivity values, greater than 90%, and quite suitable viscosity values, 4.5-8.5 cSt. In this way, the best catalytic behavior in the first use was obtained by using Al 2 O 3 as support. However, although in the five consecutive reuses all exhibited a continuous decrease in the catalytic activities; the lower one was for KF catalyst using MgO as support. In summary, these three KF supported catalysts have OPEN ACCESSEnergies 2013, 6 2 resulted to be very suitable to obtain a new biofuel, similar to conventional biodiesel, applicable to diesel engines.

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Section: Influence Of the Inorganic Solid Used As Support Of Kf On Prsupporting

confidence: 63%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Production of a Biofuel that Keeps the Glycerin as Monoglycerides by Using Supported KF as Heterogeneous Catalyst

Calero

Cumplido

Luna

et al. 2014

Proceedings of 1st International E-Conference on Energies

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1,3‐Regiospecific ethanolysis of soybean oil catalyzed by crosslinked porcine pancreas lipase aggregates

Ramos

Miranda

Giordano

et al. 2018

Biotechnology Progress

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The preparation of crosslinked aggregates of pancreatic porcine lipase (PPL-CLEA) was systematically studied, evaluating the influence of three precipitants and two crosslinking agents, as well as the use of soy protein as an alternative feeder protein on the catalytic properties and stability of the immobilized PPL. Standard CLEAs showed a global yield (CLEA' observed activity/offered total activity) of less than 4%, whereas with the addition of soy protein (PPL:soy protein mass ratio of 1:3) the global yield was approximately fivefold higher. The CLEA of PPL prepared with soy protein as feeder (PPL:soy protein mass ratio of 1:3) and glutaraldehyde as crosslinking reagent (10 μmol of aldehyde groups/mg of total protein) was more active mainly because of the reduced enzyme leaching in the washing step. This CLEA, named PPL-SOY-CLEA, had an immobilization yield around 60% and an expressed activity around 40%. In the ethanolysis of soybean oil, the PPL-SOY-CLEA yielded maximum fatty acid ethyl ester (FAEE) concentration around 12-fold higher than that achieved using soluble PPL (34 h reaction at 30°C, 300 rpm stirring, soybean oil/ethanol molar ratio of 1:5) with an enzyme load around 2-fold lower (very likely due to free enzyme inactivation). The operational stability of the PPL-SOY-CLEA in the ethanolysis of soybean oil in a vortex flow type reactor showed that FAEE yield was higher than 50% during ten reaction cycles of 24 h. This reactor configuration may be an attractive alternative to the conventional stirred reactors for biotransformations in industrial plants using carrier-free biocatalysts. © 2018 American Institute of Chemical Engineers Biotechnol. Prog., 34:910-920, 2018.

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Production of biodiesel catalyzed by lipase from Thermomyces lanuginosus in its soluble form

et al. 2018

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Biodiesel production through the transesterification of oleaginous sources utilizing alkaline catalysts shows many process drawbacks like the need of a raw material with high purity degree and a high amount of alkaline wastewater generated from the biodiesel washing step. Such drawbacks can be overcome using enzymes as catalysts. In this context, the commercial Callera™ Trans L lipase arises as an interesting alternative catalyst for hydrolysis‐esterification reaction. In order to evaluate the use of Callera™ Trans L on biodiesel synthesis and optimize the main variables of the hydrolysis‐esterification process (temperature, methanol to oil molar ratio, and catalyst concentration), this work adopted the Central Composite Statistical Design to find out the combination of factors that lead to maximum biodiesel yield. It was observed that the Callera™ Trans L lipase presents a high catalytic activity, mainly in the initial reaction steps. The optimized variables for biodiesel synthesis were 35 °C methanol to oil molar ratio of 4.5:1, and 1.45 wt% of catalyst load, which allowed reaching a biodiesel yield of 96.9 % in 24 h of reaction.

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Biofuel that Keeps Glycerol as Monoglyceride by 1,3-Selective Ethanolysis with Pig Pancreatic Lipase Covalently Immobilized on AlPO4 Support

Cited by 29 publications

References 76 publications

Production of a Biofuel that Keeps the Glycerin as Monoglycerides by Using Supported KF as Heterogeneous Catalyst

Production of a Biofuel that Keeps the Glycerin as Monoglycerides by Using Supported KF as Heterogeneous Catalyst

1,3‐Regiospecific ethanolysis of soybean oil catalyzed by crosslinked porcine pancreas lipase aggregates

Production of biodiesel catalyzed by lipase from Thermomyces lanuginosus in its soluble form

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