Enhanced Down-Stream Processing of Biobutanol in the ABE Fermentation Process

Costin S. Bîldea; Iulian Patraşcu; J. G. Segovia Hernandez; Anton A. Kiss

doi:10.1016/B978-0-444-63428-3.50168-5

Enhanced Down-Stream Processing of Biobutanol in the ABE Fermentation Process

Costin S. Bîldea, Iulian Patraşcu, J. G. Segovia Hernandez, Anton A. Kiss

Research output: Chapter in Book/Conference proceeding › Chapter › peer-review

Abstract

Butanol is considered a superior biofuel, as it is more energy dense and less hygroscopic than bioethanol, resulting in higher possible blending ratios with gasoline. However, the production cost of the acetone-butanol-ethanol (ABE) fermentation process is high, mainly due to the low butanol titer, yield, and productivity in bioprocesses. The classic recovery by distillation is an energy-intensive process that has largely restricted the economic production of biobutanol. Other methods based on gas stripping, liquid-liquid extraction, adsorption, and membranes are also energy intensive due to the bulk removal of water. This study proposes a novel process for the butanol recovery by enhanced distillation, using only several operating units in an optimized sequence to reduce costs. This work considers a plant capacity of 40 ktpy and purities of 99.4 %wt butanol, 99.4 %wt acetone and 91.4 %wt ethanol. The process was simulated and optimized using Aspen Plus as PSE tool. The enhanced process proposed here is cost effective and can be readily employed at large scale to improve the economics of biobutanol production.

Original language	English
Title of host publication	26 European Symposium on Computer Aided Process Engineering, 2016
Publisher	Elsevier BV
Pages	979-984
Number of pages	6
Volume	38
ISBN (Print)	9780444634283
DOIs	https://doi.org/10.1016/B978-0-444-63428-3.50168-5
Publication status	Published - 2016

Publication series

Name	Computer Aided Chemical Engineering
Volume	38
ISSN (Print)	1570-7946

Keywords

ABE fermentation
distillation
energy efficiency
process simulation

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/B978-0-444-63428-3.50168-5

Cite this

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abstract = "Butanol is considered a superior biofuel, as it is more energy dense and less hygroscopic than bioethanol, resulting in higher possible blending ratios with gasoline. However, the production cost of the acetone-butanol-ethanol (ABE) fermentation process is high, mainly due to the low butanol titer, yield, and productivity in bioprocesses. The classic recovery by distillation is an energy-intensive process that has largely restricted the economic production of biobutanol. Other methods based on gas stripping, liquid-liquid extraction, adsorption, and membranes are also energy intensive due to the bulk removal of water. This study proposes a novel process for the butanol recovery by enhanced distillation, using only several operating units in an optimized sequence to reduce costs. This work considers a plant capacity of 40 ktpy and purities of 99.4 %wt butanol, 99.4 %wt acetone and 91.4 %wt ethanol. The process was simulated and optimized using Aspen Plus as PSE tool. The enhanced process proposed here is cost effective and can be readily employed at large scale to improve the economics of biobutanol production.",

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Enhanced Down-Stream Processing of Biobutanol in the ABE Fermentation Process. / Bîldea, Costin S.; Patraşcu, Iulian; Segovia Hernandez, J. G. et al.
26 European Symposium on Computer Aided Process Engineering, 2016. Vol. 38 Elsevier BV, 2016. p. 979-984 (Computer Aided Chemical Engineering; Vol. 38).

Research output: Chapter in Book/Conference proceeding › Chapter › peer-review

TY - CHAP

T1 - Enhanced Down-Stream Processing of Biobutanol in the ABE Fermentation Process

AU - Bîldea, Costin S.

AU - Patraşcu, Iulian

AU - Segovia Hernandez, J. G.

AU - Kiss, Anton A.

PY - 2016

Y1 - 2016

N2 - Butanol is considered a superior biofuel, as it is more energy dense and less hygroscopic than bioethanol, resulting in higher possible blending ratios with gasoline. However, the production cost of the acetone-butanol-ethanol (ABE) fermentation process is high, mainly due to the low butanol titer, yield, and productivity in bioprocesses. The classic recovery by distillation is an energy-intensive process that has largely restricted the economic production of biobutanol. Other methods based on gas stripping, liquid-liquid extraction, adsorption, and membranes are also energy intensive due to the bulk removal of water. This study proposes a novel process for the butanol recovery by enhanced distillation, using only several operating units in an optimized sequence to reduce costs. This work considers a plant capacity of 40 ktpy and purities of 99.4 %wt butanol, 99.4 %wt acetone and 91.4 %wt ethanol. The process was simulated and optimized using Aspen Plus as PSE tool. The enhanced process proposed here is cost effective and can be readily employed at large scale to improve the economics of biobutanol production.

AB - Butanol is considered a superior biofuel, as it is more energy dense and less hygroscopic than bioethanol, resulting in higher possible blending ratios with gasoline. However, the production cost of the acetone-butanol-ethanol (ABE) fermentation process is high, mainly due to the low butanol titer, yield, and productivity in bioprocesses. The classic recovery by distillation is an energy-intensive process that has largely restricted the economic production of biobutanol. Other methods based on gas stripping, liquid-liquid extraction, adsorption, and membranes are also energy intensive due to the bulk removal of water. This study proposes a novel process for the butanol recovery by enhanced distillation, using only several operating units in an optimized sequence to reduce costs. This work considers a plant capacity of 40 ktpy and purities of 99.4 %wt butanol, 99.4 %wt acetone and 91.4 %wt ethanol. The process was simulated and optimized using Aspen Plus as PSE tool. The enhanced process proposed here is cost effective and can be readily employed at large scale to improve the economics of biobutanol production.

KW - ABE fermentation

KW - distillation

KW - energy efficiency

KW - process simulation

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PB - Elsevier BV

ER -

Enhanced Down-Stream Processing of Biobutanol in the ABE Fermentation Process

Abstract

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Keywords

UN SDGs

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