Pilot scale simultaneous saccharification and fermentation at very high gravity of cassava flour for ethanol production

•We developed a very high gravity process to produce ethanol from cassava flour.•A dry solid content of 315.4g/l was achieved at lab and pilot scale.•We reached 17.2% v/v ethanol (86.1% of theoretical ethanol yield) at lab scale.•We reached 16.5% v/v (83.6% of theoretical ethanol yield) at pilot sca...

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Veröffentlicht in:	Industrial crops and products 2014-05, Vol.56, p.160-165
Hauptverfasser:	Nguyen, Chinh-Nghia, Le, Thanh-Mai, Chu-Ky, Son
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Sprache:	eng
Schlagworte:	Cassava flour Ethanol Manihot esculenta Simultaneous saccharification and fermentation (SSF) Very high gravity (VHG)
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creator	Nguyen, Chinh-Nghia Le, Thanh-Mai Chu-Ky, Son
description	•We developed a very high gravity process to produce ethanol from cassava flour.•A dry solid content of 315.4g/l was achieved at lab and pilot scale.•We reached 17.2% v/v ethanol (86.1% of theoretical ethanol yield) at lab scale.•We reached 16.5% v/v (83.6% of theoretical ethanol yield) at pilot scale (100l). We developed a simultaneous saccharification and fermentation (SSF) process of cassava flour at very high gravity (VHG). Cassava flour (CF) was dissolved in water to reach 315.4g/l dry matter, and then the mixture was liquefied at 80°C for 90min by using alpha-amylase (3532AAU/kg CF) and beta-glucanase (2812U/kg CF). SSF of liquefied mash of cassava was performed at 30°C with the simultaneous addition of two glucoamylases (Distillase ASP at 540GAU/kg CF and Amigase Mega L at 0.035% w/w), active dry yeast (1.5×107 cells/l), urea (12mM) and KH2PO4 (4mM). Under these conditions, the SSF process finished after 72h. The ethanol content achieved 17.2% v/v corresponding to 86.1% of the theoretical ethanol yield at lab scale and decreased to 16.5% v/v corresponding to 83.6% of the theoretical ethanol yield at pilot scale. Therefore, the SSF of cassava flour under VHG condition could have a great potential for the ethanol industry in Vietnam and South East Asia.
doi_str_mv	10.1016/j.indcrop.2014.02.004
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We developed a simultaneous saccharification and fermentation (SSF) process of cassava flour at very high gravity (VHG). Cassava flour (CF) was dissolved in water to reach 315.4g/l dry matter, and then the mixture was liquefied at 80°C for 90min by using alpha-amylase (3532AAU/kg CF) and beta-glucanase (2812U/kg CF). SSF of liquefied mash of cassava was performed at 30°C with the simultaneous addition of two glucoamylases (Distillase ASP at 540GAU/kg CF and Amigase Mega L at 0.035% w/w), active dry yeast (1.5×107 cells/l), urea (12mM) and KH2PO4 (4mM). Under these conditions, the SSF process finished after 72h. The ethanol content achieved 17.2% v/v corresponding to 86.1% of the theoretical ethanol yield at lab scale and decreased to 16.5% v/v corresponding to 83.6% of the theoretical ethanol yield at pilot scale. 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We developed a simultaneous saccharification and fermentation (SSF) process of cassava flour at very high gravity (VHG). Cassava flour (CF) was dissolved in water to reach 315.4g/l dry matter, and then the mixture was liquefied at 80°C for 90min by using alpha-amylase (3532AAU/kg CF) and beta-glucanase (2812U/kg CF). SSF of liquefied mash of cassava was performed at 30°C with the simultaneous addition of two glucoamylases (Distillase ASP at 540GAU/kg CF and Amigase Mega L at 0.035% w/w), active dry yeast (1.5×107 cells/l), urea (12mM) and KH2PO4 (4mM). Under these conditions, the SSF process finished after 72h. The ethanol content achieved 17.2% v/v corresponding to 86.1% of the theoretical ethanol yield at lab scale and decreased to 16.5% v/v corresponding to 83.6% of the theoretical ethanol yield at pilot scale. 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Therefore, the SSF of cassava flour under VHG condition could have a great potential for the ethanol industry in Vietnam and South East Asia.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.indcrop.2014.02.004</doi><tpages>6</tpages></addata></record>
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source	ScienceDirect Journals (5 years ago - present)
subjects	Cassava flour Ethanol Manihot esculenta Simultaneous saccharification and fermentation (SSF) Very high gravity (VHG)
title	Pilot scale simultaneous saccharification and fermentation at very high gravity of cassava flour for ethanol production
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