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A numerical and experimental analysis of multi-hole orifice in turbulent flow

Anna Golijanek-Jędrzejczyk, Andrzej Mrowiec, Sławosz Kleszcz, Robert Hanus, Marcin Zych, Marek Jaszczur

2022Measurement32 citationsDOIOpen Access PDF

Abstract

In this research study, the comprehensive metrological analysis is investigated for a 4-hole orifice with module m = 0.25 installed in the pipeline with an internal diameter of 50 mm. A detailed numerical simulation was performed for the turbulence models: k-ε-realizable and k-ω-BSL. The novelties of the research include model validation by comparing the results of numerical studies with the experiment conducted in the area of developing turbulent flow in the range of Reynolds numbers from 4,200 to 19,000. Such validated models are sought by the system designers and can be used for further analyses and optimisation of this orifice in this flow type. The multi-hole orifices are less sensitive to flow disturbances than the standardized standard centric orifice. In addition, orifices of this type can be mounted in installations with much shorter sections upstream and downstream of the orifice - which is very often the case in industrial flow installations.

Topics & Concepts

Body orificeTurbulenceReynolds numberFlow (mathematics)Flow conditioningMechanicsRange (aeronautics)Orifice plateDownstream (manufacturing)Mechanical engineeringEngineeringSimulationPhysicsAerospace engineeringOperations managementFlow Measurement and AnalysisAdvanced Sensor Technologies ResearchFluid Dynamics and Mixing
A numerical and experimental analysis of multi-hole orifice in turbulent flow | Litcius