Optimization of enzymatic biodiesel synthesis using RSM in high pressure carbon dioxide and its scale up

Optimization of enzymatic biodiesel synthesis using RSM in high pressure carbon dioxide and its scale up

Enzymatic synthesis of biodiesel by the transesterification of canola oil and methanol in high pressure carbon dioxide [HPCO 2 : near-critical and supercritical carbon dioxide (NcCO 2 and ScCO 2 )] was optimized using response surface methodology (RSM). RSM based on 5-level-5-factor central composit...

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Veröffentlicht in:Bioprocess and biosystems engineering 2013-06, Vol.36 (6), p.775-780
Hauptverfasser: Lee, Myunggu, Lee, Dohoon, Cho, Jaehoon, Lee, Junhac, Kim, Sangyong, Kim, Seung Wook, Park, Chulhwan
Format: Artikel
Sprache:eng
Schlagworte:
Batch reactors
Biodiesel fuels
Bioengineering
Biofuels
Biotechnology
Canola Oil
Carbon dioxide
Carbon Dioxide - chemistry
Chemistry
Chemistry and Materials Science
Environmental Engineering/Biotechnology
Enzymes
Enzymes, Immobilized - chemistry
Fatty Acids, Monounsaturated - chemistry
Food Science
High pressure
Industrial and Production Engineering
Industrial Chemistry/Chemical Engineering
Lipase - chemistry
Optimization
Original Paper
Pressure
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Zusammenfassung:Enzymatic synthesis of biodiesel by the transesterification of canola oil and methanol in high pressure carbon dioxide [HPCO 2 : near-critical and supercritical carbon dioxide (NcCO 2 and ScCO 2 )] was optimized using response surface methodology (RSM). RSM based on 5-level-5-factor central composite rotatable design (CCRD) was used to evaluate the effects of temperature, pressure, enzyme loading, substrate molar ratio, and time on the conversion to biodiesel by transesterification. Finally, batch reactions for biodiesel synthesis were preformed in a 100 mL and 7 L high-pressure stirred batch reactors.
ISSN:1615-7591
1615-7605
DOI:10.1007/s00449-013-0903-9