Biodiesel production from acid oils and ethanol using a solid basic resin as catalyst

Biodiesel production from acid oils and ethanol using a solid basic resin as catalyst

In the search of an alternative fuel to substitute diesel fuel, biodiesel appears as one of the most promising sources of energy for diesel engines because of its environmental advantages and also due to the evolution of the petroleum market. Refined oil is the conventional raw material for the prod...

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Veröffentlicht in:Biomass & bioenergy 2010-03, Vol.34 (3), p.272-277
Hauptverfasser: Marchetti, J.M., Errazu, A.F.
Format: Artikel
Sprache:eng
Schlagworte:
Acid oils
acids, bases, and salts
Alternative fuels. Production and utilization
Applied sciences
biodiesel
bioenergy industry
Biomass
catalysts
Energy
energy conversion
ethanol
ethanol production
Exact sciences and technology
FAEE production
fatty acid esters
fatty acid ethyl esters
free fatty acids
Fuels
Miscellaneous
Natural energy
resins
solid basic resins
Solid resin catalyst
solids
transesterification
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creator Marchetti, J.M.
Errazu, A.F.
description In the search of an alternative fuel to substitute diesel fuel, biodiesel appears as one of the most promising sources of energy for diesel engines because of its environmental advantages and also due to the evolution of the petroleum market. Refined oil is the conventional raw material for the production of this biofuel; however, its major disadvantage is the high cost of its production. Therefore, frying oils, waste oils, crude oils and/or acid oils are being tested as alternative raw materials; nevertheless, there will be some problems if a homogeneous basic catalyst (NaOH) is employed due to the high amount of free fatty acid present in the raw oil. In this work, the transesterification reaction of acid oil using solid resin, Dowex monosphere 550 A, was studied as an alternative process. Ethanol was employed to have a natural and sustainable final product. The reaction temperature's effects, the initial amount of free fatty acid, the molar ratio of alcohol/oil and the type of catalyst (homogeneous or heterogeneous) over the main reaction are analyzed and their effects compared. The results obtained show that the solid resin is an alternative catalyst to be used to produce fatty acid ethyl esters (FAEEs) by a transesterification reaction with a final conversion over 90%. On the other hand, the time required to achieve this conversion is bigger than the one required using conventional technology which employs a homogeneous basic catalyst. This reaction time needs to be optimized.
doi_str_mv 10.1016/j.biombioe.2009.10.016
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source Elsevier ScienceDirect Journals
subjects Acid oils
acids, bases, and salts
Alternative fuels. Production and utilization
Applied sciences
biodiesel
bioenergy industry
Biomass
catalysts
Energy
energy conversion
ethanol
ethanol production
Exact sciences and technology
FAEE production
fatty acid esters
fatty acid ethyl esters
free fatty acids
Fuels
Miscellaneous
Natural energy
resins
solid basic resins
Solid resin catalyst
solids
transesterification
title Biodiesel production from acid oils and ethanol using a solid basic resin as catalyst
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