BADANIA TEORETYCZNO-EKSPERYMENTALNE PRZEPŁYWU PŁYNU NIEŚCIŚLIWEGO PRZEZ KRYZĘ SZCZELINOWĄ

Barbara  Tomaszewska

doi:10.5604/01.3001.0010.4841

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Published: Jun 30, 2017

DOI: https://doi.org/10.5604/01.3001.0010.4841

DOI

https://doi.org/10.5604/01.3001.0010.4841

Authors

Barbara Tomaszewska

b.tomaszewska@po.opole.pl

Politechnika Opolska, Wydział Mechaniczny, Katedra Techniki Cieplnej i Aparatury Przemysłowej

Abstract

Prototype designs of orifice flowmeters are commonly used in measurements. One area which has attracted considerable interest includes slotted orifices, where a single central opening is replaced by the use of several slots. This paper reports the results of numerical and experimental research of a prototype design of a slotted orifice plate. The movement of the fluid was described with use of Reynolds equations closed by the k-ε turbulence model. The calculations were performed using ANSYS Fluent software package by consideration of the fluid flow through an orifice plate and slotted orifice with the equal β ratio = 0.5. The results of calculations are compared with the measurements. Good qualitative and quantitative conformity was obtained during the study for the C flow coefficient. It was indicated that the slotted orifice generates a considerable lower pressure drop in comparison to an orifice plate while maintaining comparable level of measurement uncertainty.

Keywords:

standard orifice, slotted orifice, CFD, pressure distribution, flow coefficient

References

Abou El-Azm Aly A., Chong A., Nicolleau F., Beck S.: Experimental study of the pressure drop after fractal-shaped orifices in turbulent pipe flows, Experimental Thermal and Fluid Science 34, 2010, 104–111.

ANSYS FLUENT Theory Guide (2011)

Dobrowolski B., Kręcisz K., Spyra A.: Usability of selected turbulence models for simulation flow through a pipe orifice, Task Quarterly 9(4)/2005, 439–448.

Geng Y., Zheng J., Shi T.: Study on the metering characteristics of a slotted orifice for wet gas flow, Flow Measurement and Instrumentation 17/2006, 123–128.

Guo B. Y., Hou Q. F., Yu A. B., Li L. F., Gou J.: Numerical modeling of the gas flow through perforated plates, Chemical Engineering Research and Design 91, 2013, 403–408.

Huang S., Ma T., Wang D., Lin Z.: Study on discharge coefficient of perforated orifices as a new kind of flowmeter, Experimental Thermal and Fluid Science 46 2013, 74–83.

Jaworski Z.: Numeryczna mechanika płynów w inżynierii chemicznej i procesowej, Akademicka Oficyna Wydawnicza EXIT, Warszawa 2005.

Kumar P., Wong Ming Bing M.: A CFD study of low pressure wet gas metering using slotted orifice meters, Flow Measurement and Instrumentation 22/2011, 33–42.

Morrison G. L., Hall K. R., Holste J. C., Macek M. L., Ihfe L. M., DeOtte R. E., Terracina D.: Comparison of orifice and slotted plate flowmeters, Flow measurement and Instrumentation 5(2)/1994, 71–77.

Morrison G.L., Terracina D., Brewer C., Hall K.R.: Response of a slotted orifice flow meter to an air/water mixture, Flow Measurement and Instrumentation 12/2001, 175–180.

PN-EN ISO 5167-1: Pomiar strumienia płynu za pomocą zwężek pomiarowych Steven R., Hall A.: Orifice plate meter wet gas flow performance, Flow Measurement and Instrumentation 20/2009, 141–151.

Taler D.: Pomiar ciśnienia, prędkości i strumienia przepływu płynu, Wydawnictwo Naukowo-Dydaktyczne, Kraków 2001.

Tomaszewska, B. . (2017). THEORETICAL AND EXPERIMENTAL STUDY OF INCOMPRESSIBLE FLUID FLOW THROUGH A SLOTTED ORIFICE. Informatyka, Automatyka, Pomiary W Gospodarce I Ochronie Środowiska, 7(2), 62–65. https://doi.org/10.5604/01.3001.0010.4841

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