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Experimental thermal and fluid science, 2013-04, Vol.46, p.74-83
2013

Details

Autor(en) / Beteiligte
Titel
Study on discharge coefficient of perforated orifices as a new kind of flowmeter
Ist Teil von
  • Experimental thermal and fluid science, 2013-04, Vol.46, p.74-83
Ort / Verlag
Amsterdam: Elsevier Inc
Erscheinungsjahr
2013
Link zum Volltext
Quelle
Alma/SFX Local Collection
Beschreibungen/Notizen
  • Typical results of discharge coefficient as a function of Reynolds number for perforated and standard orifices. [Display omitted] ► The discharge coefficient of a perforated orifice is obtained theoretically and experimentally by varying structural parameters. ► Minor pressure drop related to the hole distribution and the porosity determines the performance of perforated orifices. ► The discharge coefficient of perforated orifices is 22.5–25.6% larger than that of the corresponding standard orifices. ► A perforated orifice is comparable to the newly developed differential pressure orifices but with a simpler structure. A perforated orifice is promising in measuring flowrates accurately as a differential pressure device. In this study, the discharge coefficient of a perforated orifice, characterizing the relationship between the volumetric flowrate and the pressure drop across the orifice is presented. Different structures are tested experimentally including orifice thickness, porosity, hole distribution and upstream disturbance. For each case, a wide range of flowrate was tested in a horizontal single-phase water pipe with an I.D. of 29mm. For comparison, the discharge coefficient was also obtained for the corresponding standard orifice with the same porosity and thickness. Meanwhile, the effect on the discharge coefficients of the structural parameters was assessed in terms of pressure drop. The theoretical analysis shows that a perforated orifice yields a weaker distortion to the flow than the corresponding standard orifice, indicating a lower pressure drop and a more stable flow field for the former. The experimental results show that the discharge coefficient of a perforated orifice is 22.5–25.6% larger but with a weaker scattering than that of the corresponding standard orifice. Furthermore, a perforated orifice has a lower critical Reynolds number and a stronger anti-disturbance ability. As a flowmeter, the perforated orifice is comparable to the newly developed differential pressure orifices, e.g. V-cone and slotted orifices, but with a simpler structure.

Weiterführende Literatur

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