Effects of biomass-generated producer gas constituents on cell growth, product distribution and hydrogenase activity of Clostridium carboxidivorans P7T

Asma Ahmed; B. G. Cateni; R.L. Huhnke; R.S. Lewis

doi:10.1016/j.biombioe.2006.01.007

Effects of biomass-generated producer gas constituents on cell growth, product distribution and hydrogenase activity of Clostridium carboxidivorans P7T

Asma Ahmed
, B. G. Cateni
, R.L. Huhnke
, R.S. Lewis

Research output: Contribution to journal › Article › peer-review

Abstract

In our previous work, we demonstrated that biomass-generated producer gas can be converted to ethanol and acetic acid using a microbial catalyst Clostridium carboxidivorans P7T. Results showed that the producer gas (1) induced cell dormancy, (2) inhibited H2 consumption, and (3) affected the acetic acid/ethanol product distribution. Results of this work showed that tars were the likely cause of cell dormancy and product redistribution and that the addition of a 0.025 mm filter in the gas cleanup negated the effects of tars. C.
carboxidivorans P7T can adapt to the tars (i.e. grow) only after prolonged exposure. Nitric oxide, present in the producer gas at 150 ppm, is an inhibitor of the hydrogenase enzyme involved in H2 consumption. We conclude that significant conditioning of the producer gas will be required for the successful coupling of biomass-generated producer gas with fermentation to produce ethanol and acetic acid.

Original language	English
Pages (from-to)	665–672
Journal	Biomass and Bioenergy
Volume	30
DOIs	https://doi.org/10.1016/j.biombioe.2006.01.007
Publication status	Published - 11 Apr 2006

Keywords

Biomass
Ethanol
Nitric oxide
Producer gas
Tars

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title = "Effects of biomass-generated producer gas constituents on cell growth, product distribution and hydrogenase activity of Clostridium carboxidivorans P7T",

abstract = "In our previous work, we demonstrated that biomass-generated producer gas can be converted to ethanol and acetic acid using a microbial catalyst Clostridium carboxidivorans P7T. Results showed that the producer gas (1) induced cell dormancy, (2) inhibited H2 consumption, and (3) affected the acetic acid/ethanol product distribution. Results of this work showed that tars were the likely cause of cell dormancy and product redistribution and that the addition of a 0.025 mm filter in the gas cleanup negated the effects of tars. C. carboxidivorans P7T can adapt to the tars (i.e. grow) only after prolonged exposure. Nitric oxide, present in the producer gas at 150 ppm, is an inhibitor of the hydrogenase enzyme involved in H2 consumption. We conclude that significant conditioning of the producer gas will be required for the successful coupling of biomass-generated producer gas with fermentation to produce ethanol and acetic acid.",

keywords = "Biomass, Ethanol, Nitric oxide, Producer gas, Tars",

author = "Asma Ahmed and Cateni, \{B. G.\} and R.L. Huhnke and R.S. Lewis",

year = "2006",

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doi = "10.1016/j.biombioe.2006.01.007",

language = "English",

volume = "30",

pages = "665–672",

journal = "Biomass and Bioenergy",

issn = "0961-9534",

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}

TY - JOUR

T1 - Effects of biomass-generated producer gas constituents on cell growth, product distribution and hydrogenase activity of Clostridium carboxidivorans P7T

AU - Ahmed, Asma

AU - Cateni, B. G.

AU - Huhnke, R.L.

AU - Lewis, R.S.

PY - 2006/4/11

Y1 - 2006/4/11

N2 - In our previous work, we demonstrated that biomass-generated producer gas can be converted to ethanol and acetic acid using a microbial catalyst Clostridium carboxidivorans P7T. Results showed that the producer gas (1) induced cell dormancy, (2) inhibited H2 consumption, and (3) affected the acetic acid/ethanol product distribution. Results of this work showed that tars were the likely cause of cell dormancy and product redistribution and that the addition of a 0.025 mm filter in the gas cleanup negated the effects of tars. C. carboxidivorans P7T can adapt to the tars (i.e. grow) only after prolonged exposure. Nitric oxide, present in the producer gas at 150 ppm, is an inhibitor of the hydrogenase enzyme involved in H2 consumption. We conclude that significant conditioning of the producer gas will be required for the successful coupling of biomass-generated producer gas with fermentation to produce ethanol and acetic acid.

AB - In our previous work, we demonstrated that biomass-generated producer gas can be converted to ethanol and acetic acid using a microbial catalyst Clostridium carboxidivorans P7T. Results showed that the producer gas (1) induced cell dormancy, (2) inhibited H2 consumption, and (3) affected the acetic acid/ethanol product distribution. Results of this work showed that tars were the likely cause of cell dormancy and product redistribution and that the addition of a 0.025 mm filter in the gas cleanup negated the effects of tars. C. carboxidivorans P7T can adapt to the tars (i.e. grow) only after prolonged exposure. Nitric oxide, present in the producer gas at 150 ppm, is an inhibitor of the hydrogenase enzyme involved in H2 consumption. We conclude that significant conditioning of the producer gas will be required for the successful coupling of biomass-generated producer gas with fermentation to produce ethanol and acetic acid.

KW - Biomass

KW - Ethanol

KW - Nitric oxide

KW - Producer gas

KW - Tars

U2 - 10.1016/j.biombioe.2006.01.007

DO - 10.1016/j.biombioe.2006.01.007

M3 - Article

SN - 0961-9534

VL - 30

SP - 665

EP - 672

JO - Biomass and Bioenergy

JF - Biomass and Bioenergy

ER -

Effects of biomass-generated producer gas constituents on cell growth, product distribution and hydrogenase activity of Clostridium carboxidivorans P7T

Abstract

Keywords

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