Optimization of biodiesel production from waste lard by a two-step transesterification process under mild conditions

The aim of this work is to investigate a two-step homogenous catalyzed waste lard transesterification reaction for low cost biodiesel production. For this purpose, two 23 full factorial design of experiments was applied. Six variables, namely esterification time (60–120min), H2SO4 concentration (20–...

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Bibliographic Details
Published in:Energy for sustainable development 2014-12, Vol.23, p.110-114
Main Authors: Sarantopoulos, Ioannis, Chatzisymeon, Efthalia, Foteinis, Spyros, Tsoutsos, Theocharis
Format: Article
Language:English
Subjects:
Alternative fuels. Production and utilization
Applied sciences
Biodiesel
Energy
Exact sciences and technology
Factorial design
Fuels
Miscellaneous
Two-step transesterification
Waste lard
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Summary:The aim of this work is to investigate a two-step homogenous catalyzed waste lard transesterification reaction for low cost biodiesel production. For this purpose, two 23 full factorial design of experiments was applied. Six variables, namely esterification time (60–120min), H2SO4 concentration (20–40wt.%), MeOH:FFA (15:1–23:1), transesterification time (30–60min), KOH concentration (1–2wt.%), and MeOH:triglycerides (6:1–9:1), that typically affect the production process were studied. The esterification step is significantly affected mostly by the reaction time and the MeOH:FFA ratio value. Specifically, their increase brings a reduction of the FFA acidity. Likewise, the transesterification step is positively affected primarily by three independent variables, namely reaction time, KOH concentration and MeOH:triglyceride ratio. Furthermore two empirical models describing evolution of the two-step transesterification reaction were developed. They can become useful tools for further scaling-up the process by predicting its reaction yield within a 95% of confidence level. •A factorial design methodology was adopted to optimize biodiesel production.•Six independent variables typically affecting biodiesel production were investigated.•Empirical models describing the biodiesel production yield were developed.•Produced biodiesel was within the EN14214:2003 quality standards checked.
ISSN:0973-0826
DOI:10.1016/j.esd.2014.08.005