Abstract
2,3-Butanediol production parameter optimization using Klebsiella pneumoniaePTCC 1290 was performed using the design of experiments available in the form of an orthogonal array and a software for automatic design and analysis of the experiments, both based on Taguchi protocol. Optimal levels of physical parameters and key media components namely temperature, pH, inoculum size, agitation, acetic acid and succinic acid were determined. 2,3-Butanediol production obtained from the 18 sets of fermentation experiments performed with the selected factors and levels were further processed with Qualitek-4 software at bigger is better as quality character. The optimized conditions showed an enhanced 2,3-butanediol production of 35.8% (from 11.856 to 18.459 g l-1). The optimal combinations of factors obtained from the proposed design of experiments methodology was further validated by conducting fermentation experiments and the obtained results revealed an enhanced 2,3-butanediol production of 25.8%. Taguchi approach of design of experiments resulted in evaluating the main and interaction effects of the factors individually and in combination. Key words: 2,3-Butanediol, design of experiments, Klebsiella pneumoniae, optimization, Taguchi methodology.
Highlights
2,3-Butanediol production parameter optimization using Klebsiella pneumoniae PTCC 1290 was performed using the design of experiments available in the form of an orthogonal array and a software for automatic design and analysis of the experiments, both based on Taguchi protocol
Bacterial strain used in this study was Klebsiella pneumoniae PTCC
Taguchi method of design of experimental (DOE) involves establishment of large number of experimental situation described as orthogonal array (OA) to reduce experimental errors and to enhance their efficiency and reproducibility of the laboratory experiments (Montgomery, 2004)
Summary
2,3-Butanediol production parameter optimization using Klebsiella pneumoniae PTCC 1290 was performed using the design of experiments available in the form of an orthogonal array and a software for automatic design and analysis of the experiments, both based on Taguchi protocol. The optimal combinations of factors obtained from the proposed design of experiments methodology was further validated by conducting fermentation experiments and the obtained results revealed an enhanced 2,3-butanediol production of 25.8%. The commercial applications of this diol are not limited to the manufacture of butadiene, or to its use as an antifreeze agent (Perego et al, 2003). It is known as 2,3-butylene glycol, a valuable chemical feedstock because of its application as a solvent, a liquid fuel, and as a precursor of many synthetic polymers and resins. Dehydration of 2,3butanediol yields the industrial solvent methyl ethyl ketone. A wide variety of chemi-cals can be prepared from 2,3-butanediol (Saha and Bothast, 1999)
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