Adrian Daub scite author profile

BackgroundTurbulence intensity, or hydromechanical stress, is a parameter that influences a broad range of processes in the fields of chemical engineering and biotechnology. Fermentation processes are often characterized by high agitation and aeration intensity resulting in high gas void fractions of up to 20% in large scale reactors. Very little experimental data on hydromechanical stress for such operating conditions exists because of the problems associated with measuring hydromechanical stress under aeration and intense agitation.ResultsAn indirect method to quantify hydromechanical stress for aerated operating conditions by the measurement of maximum stable drop size in a break-up controlled dispersion was applied to characterize hydromechanical stress in reactor scales of 50 L, 3 m3 and 40 m3 volume with a broad range of operating conditions and impeller geometries (Rushton turbines). Results for impellers within each scale for the ratio of maximum to specific energy dissipation rate ϕ based on measured values of maximum stable drop size for aerated operating conditions are qualitatively in agreement with results from literature correlations for unaerated operating conditions. Comparison of data in the different scales shows that there is a scale effect that results in higher values for ϕ in larger reactors. This behavior is not covered by the classic theory of turbulent drop dispersion but is in good agreement with the theory of turbulence intermittency. The data for all impeller configurations and all aeration rates for the three scales can be correlated within ±20% when calculated values for ϕ based on the measured values for dmax are used to calculate the maximum local energy dissipation rate. A correlation of the data for all scales and all impeller configurations in the form ϕ = 2.3∙(ϕunaerated)0.34∙(DR)0.543 is suggested that successfully models the influence of scale and impeller geometry on ϕ for aerated operating conditions.ConclusionsThe results show that besides the impeller geometry, also aeration and scale strongly influence hydromechanical stress. Incorporating these effects is beneficial for a successful scale up or scale down of this parameter. This can be done by applying the suggested correlation or by measuring hydromechanical stress with the experimental method used in this study.

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Measurement of maximum stable drop size in aerated dilute liquid–liquid dispersions in stirred tanks

Daub

Böhm

Delueg

et al. 2013

Chemical Engineering Science

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Platen's Retreat: On the Poetics and Ethics of Memorizing Ballads

Daub

2012

The German Quarterly

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August von Platen's ballad “Das Grab im Busento” mobilizes an old lyric trope, the comparison of poetic discourse with the flow of a river, to interrogate the philosophy of history and memory implicit in the ballad form. By telling the story of a river that covers and protects a king's dead body and his memory, the ballad reenacts and re‐encodes the biographical circumstances of its inception: Platen signals the unspeakability of homoerotic love and the difficulty of its transmission by staging the story of a deliberate obfuscation of memory, thereby contravening the traditional relationship between ballad and memory. Since he casts a story of frustrated love as a report of a Germanic burial ritual, the ballad became an important element of literary nationalism in the nineteenth century—and as a poem that dealt with the impossibility of memorialization became one of the most frequently memorized.

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Joseph de Maistre and his European Readers

Sandoval¹,

Kohlhauer²,

Ravera³

et al. 2011

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Adrian Daub

Maximum stable drop size measurements indicate turbulence attenuation by aeration in a 3m3 aerated stirred tank

Characterization of hydromechanical stress in aerated stirred tanks up to 40 m3 scale by measurement of maximum stable drop size

Measurement of maximum stable drop size in aerated dilute liquid–liquid dispersions in stirred tanks

Platen's Retreat: On the Poetics and Ethics of Memorizing Ballads

Joseph de Maistre and his European Readers

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