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A novel approach to mimic continuous mixing is presented.
Further, a two-dimensional high-resolution simulation of a reactive Mach reflection phenomenon with diffusive multi-species mixing is presented.
In this regard, the application of the proposed models to the design of deep soil mixing is presented and elaborated using an example.
Similar(57)
An optimized flow field design and details of flow mixing are presented.
Numerical techniques for characterising the kinematic mixing rates and the distribution of mixing are presented.
One flow regime is particularly detailed: axial and radial profiles for hydrodynamics and mixing are presented.
Lastly, two mixers based on body-effect mixing are presented, which achieve a 10 dB conversion gain under 1.4 V for a −52 dB LO-to-RF isolation.
Results from the numerical modelling of oil displacement and IW/FW mixing are presented to illustrate various points which arise in the discussion.
A simple method for designing self-compacting mixes is presented.
Results of experiment for selection of optimal amount of temperature lowering additives and their influence to physical mechanical characteristics of asphalt mix are presented too.
The results of the influence of rheological properties and universal components of a fresh High Performance Self-compacting Concrete (HPSCC) on the content of entrapped air in the concrete mix are presented in the paper.
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Justyna Jupowicz-Kozak
CEO of Professional Science Editing for Scientists @ prosciediting.com