Chester S. Ho scite author profile

n-Hexadecane was added to fermentation media to increase the medium oxygen solubilities, thus enhancing oxygen transfer rates in penicillin fermentations. For shake flask fermentations, cells were found to grow faster in the flasks with n-hexadecane than those without. The addition of n-hexadecane to penicillin fermentations was shown to significantly increase cell growth and penicillin production and reduce formation of mycelial pellets. The result was attributed to the enhancement of oxygen transfer in mycelial fermentations due to the higher oxygen solubilities of fermentation media achieved by adding n-hexadecane.

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IncPIRD: Fast Learning-Based Prediction of Incremental IR Drop

Kahng

2019

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Carbon dioxide transfer in biochemical reactors

Smith

Shanahan

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Simultaneous measurement of oxygen diffusion coefficients and solubilities in electrolyte solutions with a polarographic oxygen electrode

Baddour

et al. 1988

Chemical Engineering Science

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Effect of dissolved carbon dioxide on penicillin fermentations: Mycelial growth and penicillin production

Smith

1986

Biotech & Bioengineering

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The effect of dissolved carbon dioxide on the specific growth rate and the penicillin production rate of Penicillium chrysogenum was examined experimentally. The dissolved carbon dioxide was found to inhibit the specific growth rate and the penicillin production rate when the aerated submerged penicillin fermentation was exposed to influent gases of 12.6 and 20% carbon dioxide, respectively. Upon exposure to influent gases of 3 and 5% carbon dioxide, no pronounced metabolic inhibition was noted.

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Effects of microorganisms on effective oxygen diffusion coefficients and solubilities in fermentation media

Ho¹,

Ju²

1988

Biotech & Bioengineering

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Effective oxygen diffusion coefficients and solubilities were measured for submerged cultures of Saccharomyces cerevisiae, Escherichia coli, and Penicillium chrysogenum. Both effective oxygen diffusion coefficients and solubilities were found to decrease with increasing cell concentrations in the fermentation media. Comparison of the experimental results of effective oxygen diffusion coefficients in fermentation media with values theoretically predicted on the assumption of unpenetrable microbial cells indicates that oxygen molecules diffuse through the cells during the diffusion process. Within the cell concentration range of typical submerged fermentations, the effective oxygen diffusion coefficient of the fermentation media can be described as De/Dl = 1 + A, f + A2f2. In this equation, f is the cell volume fraction and both A(1) and A(2) are functions of the shape of the cells and the ratio of effective oxygen diffusion coefficient in microbial cells to that in the medium.

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Chester S. Ho

Revisiting MOSFET threshold voltage extraction methods

Oxygen diffusion coefficient and solubility in n‐hexadecane

Enhancing penicillin fermentations by increased oxygen solubility through the addition of n‐hexadecane

IncPIRD: Fast Learning-Based Prediction of Incremental IR Drop

Carbon dioxide transfer in biochemical reactors

Simultaneous measurement of oxygen diffusion coefficients and solubilities in electrolyte solutions with a polarographic oxygen electrode

Effect of dissolved carbon dioxide on penicillin fermentations: Mycelial growth and penicillin production

Effects of microorganisms on effective oxygen diffusion coefficients and solubilities in fermentation media

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