Flow regime and Reynolds number variation effects on the mixing behavior of parallel flows

Weiss, Abdullah G.; Kristo, Paul J.; Gonzalez, Juan R.; Kimber, Mark L.

doi:10.1016/j.expthermflusci.2022.110619

Title: Flow regime and Reynolds number variation effects on the mixing behavior of parallel flows

Journal Article · 10 February 2022 · Experimental Thermal and Fluid Science

DOI: https://doi.org/10.1016/j.expthermflusci.2022.110619 · OSTI ID:1977123

Weiss, Abdullah G. ^[1]; Kristo, Paul J. ^[2]; Gonzalez, Juan R. ^[2]; Kimber, Mark L. ^[2]

Texas A & M University, College Station, TX (United States); OSTI
Texas A & M University, College Station, TX (United States)

The hydraulic single-phase mixing of three parallel rectangular channels is experimentally investigated at various Reynolds numbers (Re) and flow regime combinations. Particle Image Velocimetry results for seven mixing cases are presented and discussed with varying Re combinations ranging from 1,824 to 20,844. While all cases result in the same Re ratio of ~0.69 between the inner and outer flows, two cases represent multi-regime mixing with the inner-outer regime pair of laminar-transitional and transitional-turbulent, while the other 5 cases are all characteristic of turbulent mixing with varying levels of turbulence. The outer channels initially share characteristics with a backward facing step. The center channel is found to initially behave like a slot jet, but then sees a significant increase in velocity decay. This inner flow velocity decay increased dramatically in the laminar-transitional mixing case, whose centerline velocity decay was ~6 times larger than the decay in the turbulent mixing cases. Second order statistics revealed a consistent mixing layer thickness of ~0.1 hydraulic diameters for all the cases but showed more intense shearing in the multi-regime mixing cases. The combined point and thereby the mixing layer length is determined using centerline velocity decay profiles, which show a much more aggressive mixing in multi-regime flows. Multi-regime mixing demonstrated superior characteristics relative to turbulent mixing due to a more dramatic velocity decay in the inner flow and a shorter mixing length. The contributions of this work include communicating the benefits of multi-regime mixing and providing detailed characterization efforts that can serve future efforts for validating computational models. Here this research also lays the groundwork for future studies aimed at achieving high levels of mixing without a severe penalty in pressure drop.

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Research Organization:: Texas A & M University, College Station, TX (United States)

Sponsoring Organization:: Texas A&M University; USDOE Office of Nuclear Energy (NE); USDOE Office of Nuclear Energy (NE), Nuclear Energy University Program (NEUP)

Grant/Contract Number:: NE0008414

OSTI ID:: 1977123

Journal Information:: Experimental Thermal and Fluid Science, Journal Name: Experimental Thermal and Fluid Science Journal Issue: C Vol. 134; ISSN 0894-1777

Publisher:: ElsevierCopyright Statement

Country of Publication:: United States

Language:: English

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Title: Flow regime and Reynolds number variation effects on the mixing behavior of parallel flows

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