Continuous Production of Butanol by &lt;I&gt;Clostridium acetobutylicum &lt;/I&gt; Immobilized in a Fibrous Bed Bioreactor

Huang, Wei-Cho; Ramey, David E.; Yang, Shang‐Tian

doi:10.1385/abab:115:1-3:0887

Cited by 160 publications

(24 citation statements)

References 14 publications

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“…Mindful of the experience of pH increase from 4.0 to 4.3, the pH further increased at 5.0. After about 4 days of acclimatization to the new operating conditions, the D was set at 0.97 h -1 , in agreement with previous investigations that pointed out high solvent productivities at values of D & 1 h -1 [9,21,26]. The biofilm PBR approached a new steady-state condition (t & 616 h) and it was successfully operated for a further 134 h (about 140 space-time).…”

Section: Butanol Productionsupporting

confidence: 86%

“…Several attempts are reported in the literature regarding continuous fermentation by means of Clostridia strains confined in the reactor by immobilization [5,9,15,20,22,24]. A variety of supports have been employed for biofilm development, such as sand [7,8], granular activated carbon [11], anthracite coal [12], plastics [19], and various kinds of clays [22].…”

Section: Introductionmentioning

confidence: 99%

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Butanol production by Clostridium acetobutylicum in a continuous packed bed reactor

Napoli

Olivieri

Russo

et al. 2010

J Ind Microbiol Biotechnol

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In this study, we report on a butanol production process by immobilized Clostridium acetobutylicum in a continuous packed bed reactor (PBR) using Tygon rings as a carrier. The medium was a solution of lactose (15-30 g/L) and yeast extract (3 g/L) to emulate the cheese whey, an abundant lactose-rich wastewater. The reactor was operated under controlled conditions with respect to the pH and to the dilution rate. The pH and the dilution rate ranged between 4 and 5, the dilution rate between 0.54 and 2.4 h(-1) (2.5 times the maximum specific growth rate assessed for suspended cells). The optimal performance of the reactor was recorded at a dilution rate of 0.97 h(-1): the butanol productivity was 4.4 g/Lh and the selectivity of solvent in butanol was 88%(w).

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Section: Butanol Productionsupporting

confidence: 86%

Section: Introductionmentioning

confidence: 99%

Butanol production by Clostridium acetobutylicum in a continuous packed bed reactor

Napoli

Olivieri

Russo

et al. 2010

J Ind Microbiol Biotechnol

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“…Thus, many studies have been conducted to find a suitable pH value for solvent production and to control the pH at the same time so that suitable amounts of acids are produced for the solventogenic phase (Huang et al 2004;Li et al 2011;Guo et al 2012). The use of buffer was believed to be the simplest way to control pH conditions in batch fermentation while simultaneously providing the chance for cells to switch from the acidogenic to the solventogenic phase (Lee et al 2008).…”

Section: Introductionmentioning

confidence: 99%

Effect of Buffering System on Acetone-Butanol-Ethanol Fermentation by Clostridium acetobutylicum ATCC 824 using Pretreated Oil Palm Empty Fruit Bunch

et al. 2015

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Change of pH has been identified as the most significant parameter in modulating the transition between the conversions of acids into solvents in acetone-butanol-ethanol (ABE) fermentation by Clostridia. Thus, ABE fermentation at various phosphate buffer concentrations and initial pH values was conducted using pure glucose and sugars derived from pretreated oil palm empty fruit bunch (OPEFB). A higher solvent concentration (2.93 g/L) was obtained in the fermentation using 20 g/L of glucose with buffer compared with one without buffer that produced 1.34 g/L of solvents. Approximately 8.77 and 9.15 g/L of solvents were produced from fermentation using 40 g/L of glucose with and without buffer, respectively. In the latter conditions, at an initial pH of 5.5, 8.77 g/L of solvents was obtained, which was the highest concentration compared to other initial pH values. Increasing the buffer concentration to 0.2 M at an initial pH of 6.0 resulted in acid accumulation of 16.83 g/L but reduced the solvent production to 1.36 g/L. In addition, ABE fermentation using 20 g/L of sugars from pretreated OPEFB produced 2.25 g/L of solvents with a yield of 0.13 g/g, which was comparable with fermentation using 20 g/L of glucose conducted in a buffering system.

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“…Many researchers [12,13] found that clostridium can automatically stick to the lignocellulosic material and grow on the support without any additional chemicals. The porosity of corn stalk makes the cells not only grow on the surface of the support, but also in the inner side of the supports, resulting in a much higher cell density or cell loading.…”

Section: Resultsmentioning

confidence: 99%

“…One of the most extensively used classes of natural support is lignocellulosic materials. Some lignocellulosic supports being investigated include sawdust, wood chips/shavings, rice husks, cotton towels, and straw [10][11][12][13][14]. The corn stalk is a readily available and inexpensive material with many advantages as a support material for cell immobilization.…”

Section: Introductionmentioning

confidence: 99%

Continuous acetone–butanol–ethanol production by corn stalk immobilized cells

Zhang¹,

Ma²,

Yang³

et al. 2009

J Ind Microbiol Biotechnol

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Corn stalk was used as a support to immobilize Clostridia beijerinckii ATCC 55025 in the fermentation process of acetone, butanol, and ethanol production. The effect of the dilution rate on solvent production was examined in a steady-state 20-day continuous flow operation. The maximum total solvent concentration of 8.99 g l(-1) was obtained at a dilution rate of 0.2 h(-1). Increasing the dilution rate between 0.2 and 1.0 h(-1) resulted in an increased solvent productivity, and the highest solvent productivity was obtained at 5.06 g l(-1) h(-1) with a dilution rate of 1 h(-1). The maximum solvent yield from glucose of 0.32 g g(-1) was observed at 0.25 h(-1). The cell adsorption and morphology change during the growth on corn stalk support were examined by the SEM.

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Continuous Production of Butanol by <I>Clostridium acetobutylicum </I> Immobilized in a Fibrous Bed Bioreactor

Cited by 160 publications

References 14 publications

Butanol production by Clostridium acetobutylicum in a continuous packed bed reactor

Butanol production by Clostridium acetobutylicum in a continuous packed bed reactor

Effect of Buffering System on Acetone-Butanol-Ethanol Fermentation by Clostridium acetobutylicum ATCC 824 using Pretreated Oil Palm Empty Fruit Bunch

Continuous acetone–butanol–ethanol production by corn stalk immobilized cells

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