Abstract
Aim of this paper is the enhancement of scalar transport (heat, chemical species) in flow systems with reorientations of a laminar base flow. Conventional heating/mixing protocols comprise of temporal or spatial periodic reorientations of these base flows to promote fluid mixing. However, thermal homogenisation rates of scalar fields are not necessarily accelerated with these approaches due to the substantial effect of diffusion and/or chemical reactions on heat/chemical transport. In the present study we numerically study heat transport with an adaptive approach for an entire parameter space of fluid and flow properties. Key to the approach is real-time control of the fluid flow based on the scalar field due to an efficient numerical model. Results show that the adaptive approach can significantly enhance heat transport over the conventional periodic heating/mixing approach designed for efficient mixing.
Highlights
Rapid thermalization by adaptive flow reorientationCitation for published version (APA): Lensvelt, R., Speetjens, M
Efficient transport of scalar quantities in laminar flows is key to a wide range of industrial applications including compact equipment for process intensification and micro-fluidic devices as well as enhanced subsurface flows for resource extraction or groundwater remediation
In the present study we numerically study heat transport with an adaptive approach for an entire parameter space of fluid and flow properties
Summary
Citation for published version (APA): Lensvelt, R., Speetjens, M.
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