Baggie W. Nyande scite author profile

Kenics static mixers enhance mixing under laminar flow conditions. The ideal static mixer achieves efficient mixing at a low pressure drop. A modified design of the Kenics static mixer is analyzed, featuring gaps between the mixing elements, which can achieve the same level of mixing as the conventional design but with fewer mixing elements and a substantially lower pressure drop. The mixing effects at the entrances and exits of the mixing elements are enhanced by the introduction of gaps between the elements. The performances of mixers based on the right−left and right−right configurations with different gap lengths are characterized in terms of pressure drop, coefficient of variance of concentration, residence time distribution, and extensional efficiency with computational fluid dynamics simulations. Furthermore, the coefficient of variance of concentration is measured experimentally with several three-dimensional (3D) printed devices. The gaps reduce the mixing length when the design is based on the right−right configurations, and the gap-to-diameter ratio is 0.5 or 1.0 compared to the corresponding conventional design. Furthermore, Taylor dispersion is suppressed with the introduction of gaps, which enables a narrower residence time distribution. The presence of gaps between mixing elements introduces an additional degree of freedom, which can be utilized to strike a compromise between the required mixing length and pressure drop.

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Numerical analysis of thermal decomposition for RDX, TNT, and Composition B

Kim

Nyande

Kim

et al. 2016

Journal of Hazardous Materials

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Design and characterization of Kenics static mixer crystallizers

Thomas

Nyande

Lakerveld

2022

Chemical Engineering Research and Design

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Baggie W. Nyande

CFD Analysis of a Kenics Static Mixer with a Low Pressure Drop under Laminar Flow Conditions

Numerical analysis of thermal decomposition for RDX, TNT, and Composition B

Design and characterization of Kenics static mixer crystallizers

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