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Biodiesel Production Catalyzed by Lipase Extract Powder of ILeonotis nepetifolia/I Seed

This work aimed to evaluate the ability of lipase extract powder obtained from Leonotis nepetifolia seed for enzyme-catalyzed biodiesel production using Leonotis nepetifolia oil, commercial olive oil, and waste cooking oil as substrates. The lipase extract powder showed an enzymatic activity and hyd...

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Published in:	Energies (Basel) 2023-03, Vol.16 (6)
Main Authors:	Ávila Vázquez, Verónica, Aguilera Flores, Miguel Mauricio, Hernández Casas, Luis Felipe, Medellín Castillo, Nahum Andrés, Rocha Uribe, Alejandro, Correa Aguado, Hans Christian
Format:	Article
Language:	English
Subjects:	Biodiesel fuels Enzymes Fatty acids Hydrolysis Olive oil Phenolphthalein Phosphates Seeds
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creator	Ávila Vázquez, Verónica Aguilera Flores, Miguel Mauricio Hernández Casas, Luis Felipe Medellín Castillo, Nahum Andrés Rocha Uribe, Alejandro Correa Aguado, Hans Christian
description	This work aimed to evaluate the ability of lipase extract powder obtained from Leonotis nepetifolia seed for enzyme-catalyzed biodiesel production using Leonotis nepetifolia oil, commercial olive oil, and waste cooking oil as substrates. The lipase extract powder showed an enzymatic activity and hydrolysis percentage of 24.7 U/g and 21.31%, respectively, using commercial olive oil as a reference. Transesterification reaction conditions were 40 g of substrate, 34 °C, molar ratio oil: methanol of 1:3, lipase extract powder 20 wt%, phosphates buffer (pH 4.8) 20 wt%, and a reaction time of 8 h. Transesterification yields of 74.5%, 71.5%, and 69.3% for commercial olive oil, waste cooking oil, and Leonotis nepetifolia oil were obtained, respectively. Biodiesel physicochemical parameters were analyzed and compared with the international standards: EN 14214 (European Union) and ASTM D6751 (American Society for Testing and Materials). The biodiesel's moisture and volatile matter percentages, iodine index, cooper strip corrosion, and methyl esters content conformed to the standards' specifications. The fatty acid methyl ester content of the vegetable oils showed the presence of methyl oleate after enzyme-catalyzed transesterification. This study reveals that biodiesel production catalyzed by lipase extract powder from Leonotis nepetifolia could be a viable alternative, showing that transesterification yields competitive results.
doi_str_mv	10.3390/en16062848
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The lipase extract powder showed an enzymatic activity and hydrolysis percentage of 24.7 U/g and 21.31%, respectively, using commercial olive oil as a reference. Transesterification reaction conditions were 40 g of substrate, 34 °C, molar ratio oil: methanol of 1:3, lipase extract powder 20 wt%, phosphates buffer (pH 4.8) 20 wt%, and a reaction time of 8 h. Transesterification yields of 74.5%, 71.5%, and 69.3% for commercial olive oil, waste cooking oil, and Leonotis nepetifolia oil were obtained, respectively. Biodiesel physicochemical parameters were analyzed and compared with the international standards: EN 14214 (European Union) and ASTM D6751 (American Society for Testing and Materials). The biodiesel's moisture and volatile matter percentages, iodine index, cooper strip corrosion, and methyl esters content conformed to the standards' specifications. The fatty acid methyl ester content of the vegetable oils showed the presence of methyl oleate after enzyme-catalyzed transesterification. 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The fatty acid methyl ester content of the vegetable oils showed the presence of methyl oleate after enzyme-catalyzed transesterification. This study reveals that biodiesel production catalyzed by lipase extract powder from Leonotis nepetifolia could be a viable alternative, showing that transesterification yields competitive results.</abstract><pub>MDPI AG</pub><doi>10.3390/en16062848</doi></addata></record>
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issn	1996-1073 1996-1073
language	eng
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source	Publicly Available Content Database
subjects	Biodiesel fuels Enzymes Fatty acids Hydrolysis Olive oil Phenolphthalein Phosphates Seeds
title	Biodiesel Production Catalyzed by Lipase Extract Powder of ILeonotis nepetifolia/I Seed
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