Production of hydrogen by Enterobacter aerogenes in an immobilized cell reactor

Ibdal Satar, Mostafa Ghasemi, Saad A. Aljlil, Wan Isahak Wan Nor Roslam, Abdalla M. Abdalla, Javed Alam, Wan Ramli Wan Daud, Mohd. Ambar Yarmo, Omid Akbarzadeh

Research output: Contribution to journalArticle

6 Citations (Scopus)

Abstract

The production of hydrogen from glucose by using Enterobacter aerogenes ATCC 13048 (E. aerogenes) in an immobilized cell reactor (ICR) was investigated. The effect of several factors, such as the glucose concentration, feed flow rate, and fermentation time were examined. The highest amount of hydrogen (9.44 mmol H2/g glucose) was obtained at a glucose concentration of 8 g/L, flow rate of 0.5 mL/min, retention time of 24 h and at a temperature of 30 °C. Meanwhile, the highest amount of carbon dioxide (1.68 mmol CO2/g glucose) was obtained at a glucose concentration of 10 g/L, flow rate of 0.7 mL/min, hydraulic retention time of 24 h and at a temperature of 30 °C. The hydrogen and carbon dioxide production were affected by glucose concentration, hydraulic retention time (HRT) and fermentation time. This study showed that the ICR was a very efficient method for the production of hydrogen and carbon dioxide gases.

Original languageEnglish
JournalInternational Journal of Hydrogen Energy
DOIs
Publication statusAccepted/In press - 6 Oct 2015

Fingerprint

glucose
Glucose
reactors
Cells
Hydrogen
hydrogen
cells
carbon dioxide
Carbon dioxide
fermentation
flow velocity
Flow rate
dioxides
hydraulics
Fermentation
Hydraulics
Temperature
temperature
Gases
gases

Keywords

  • Carbon dioxide
  • Enterobacter aerogenes
  • Hydrogen
  • Immobilized cell reactor

ASJC Scopus subject areas

  • Renewable Energy, Sustainability and the Environment
  • Fuel Technology
  • Condensed Matter Physics
  • Energy Engineering and Power Technology

Cite this

Production of hydrogen by Enterobacter aerogenes in an immobilized cell reactor. / Satar, Ibdal; Ghasemi, Mostafa; Aljlil, Saad A.; Wan Nor Roslam, Wan Isahak; Abdalla, Abdalla M.; Alam, Javed; Wan Daud, Wan Ramli; Yarmo, Mohd. Ambar; Akbarzadeh, Omid.

In: International Journal of Hydrogen Energy, 06.10.2015.

Research output: Contribution to journalArticle

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AU - Ghasemi, Mostafa

AU - Aljlil, Saad A.

AU - Wan Nor Roslam, Wan Isahak

AU - Abdalla, Abdalla M.

AU - Alam, Javed

AU - Wan Daud, Wan Ramli

AU - Yarmo, Mohd. Ambar

AU - Akbarzadeh, Omid

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N2 - The production of hydrogen from glucose by using Enterobacter aerogenes ATCC 13048 (E. aerogenes) in an immobilized cell reactor (ICR) was investigated. The effect of several factors, such as the glucose concentration, feed flow rate, and fermentation time were examined. The highest amount of hydrogen (9.44 mmol H2/g glucose) was obtained at a glucose concentration of 8 g/L, flow rate of 0.5 mL/min, retention time of 24 h and at a temperature of 30 °C. Meanwhile, the highest amount of carbon dioxide (1.68 mmol CO2/g glucose) was obtained at a glucose concentration of 10 g/L, flow rate of 0.7 mL/min, hydraulic retention time of 24 h and at a temperature of 30 °C. The hydrogen and carbon dioxide production were affected by glucose concentration, hydraulic retention time (HRT) and fermentation time. This study showed that the ICR was a very efficient method for the production of hydrogen and carbon dioxide gases.

AB - The production of hydrogen from glucose by using Enterobacter aerogenes ATCC 13048 (E. aerogenes) in an immobilized cell reactor (ICR) was investigated. The effect of several factors, such as the glucose concentration, feed flow rate, and fermentation time were examined. The highest amount of hydrogen (9.44 mmol H2/g glucose) was obtained at a glucose concentration of 8 g/L, flow rate of 0.5 mL/min, retention time of 24 h and at a temperature of 30 °C. Meanwhile, the highest amount of carbon dioxide (1.68 mmol CO2/g glucose) was obtained at a glucose concentration of 10 g/L, flow rate of 0.7 mL/min, hydraulic retention time of 24 h and at a temperature of 30 °C. The hydrogen and carbon dioxide production were affected by glucose concentration, hydraulic retention time (HRT) and fermentation time. This study showed that the ICR was a very efficient method for the production of hydrogen and carbon dioxide gases.

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