M.R.C. Ahmad scite author profile

M.R.C. Ahmad

3Publications

8Citation Statements Received

71Citation Statements Given

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Georgia Institute of Technology

Publications

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Viability of Candida shehatae in D‐xylose fermentations with added ethanol

Kastner

Ahmad

Jones

et al. 1992

Biotech & Bioengineering

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Ethanol was added at concentrations of 25 and 50 g/L to active cultures of Candida shehatae under oxygen-limited (fermentative) conditions. Added ethanol completely inhibited growth and fermentation of o-xylose by C. shehatae.Cultures with added ethanol rapidly declined in cell viability as measured by plate counts and methylene blue staining. The rate of decline in cell viability was dependent on the amount of added ethanol. Over the course of the fermentation, cell viability, as measured by plate counts, was significantly lower in all experiments (with or without ethanol addition) compared with the viability measurements by methylene blue staining. Thus, data from the plate counts provided a more sensitive measure of the toxic effects of added ethanol and long-term anaerobiosis on C. shehatae growth/fermentation. Mean cell volume and total cell volume declined in fermentations with added ethanol.

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Coaxial jets with disparate viscosity: mixing and laminarization characteristics

et al. 2023

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Mixing of fluids in a coaxial jet is studied under four distinct viscosity ratios, $m=1$ , $10$ , $20$ and $40$ , using highly resolved large-eddy simulations (LES), particle image velocimetry and planar laser-induced fluorescence. The accuracy of predictions is tested against data obtained by the simultaneous experimental measurements of velocity and concentration fields. For the highest and lowest viscosity ratios, standard RANS models with unclosed terms pertaining to viscosity variations are employed. We show that the standard Reynolds-averaged Navier–Stokes (RANS) approach with no explicit modelling for variable-viscosity terms is not applicable whereas dynamic LES models provide high-quality agreement with the measurements. To identify the underlying mixing physics and sources of discrepancy in RANS predictions, two distinct mixing modes are defined based on the viscosity ratio. Then, for each mode, the evolution of mixing structures, momentum budget analysis with emphasis on variable-viscosity terms, analysis of the turbulent activity and decay of turbulence are investigated using highly resolved LES data. The mixing dynamics is found to be quite distinct in each mixing mode. Variable viscosity manifests multiple effects that are working against each other. Viscosity gradients induce additional instabilities while increasing overall viscosity decreases the effective Reynolds number leading to laminarization of the turbulent jet, explaining the lack of dispersion and turbulent diffusion. Momentum budget analysis reveals that variable-viscosity terms are significant to be neglected. The scaling of the energy spectrum cascade suggests that in the TLL mode the unsteady laminar shedding is responsible for the eddies observed.

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Inline spectroscopic measurements and LES of competitive consecutive reaction in a confined liquid jet in coflow

Ahmad

Usta

Pathikonda

et al. 2023

Chemical Engineering Science

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M.R.C. Ahmad

Viability of Candida shehatae in D‐xylose fermentations with added ethanol

Coaxial jets with disparate viscosity: mixing and laminarization characteristics

Inline spectroscopic measurements and LES of competitive consecutive reaction in a confined liquid jet in coflow

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