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Related Experiment Video

Updated: Feb 16, 2026

Parameterizing V-notch Weir Equations for Flow Monitoring in a Drainage Control Structure
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Parameterizing V-notch Weir Equations for Flow Monitoring in a Drainage Control Structure

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Drainage from a Fluid-Handling Component Because of Inclination.

C W Extrand1

  • 1CPC , 1001 Westgate Drive, St. Paul, Minnesota 55114, United States.

Langmuir : the ACS Journal of Surfaces and Colloids
|December 16, 2017
PubMed
Summary
This summary is machine-generated.

Liquid drainage from components is blocked by surface tension at the opening until a critical tilt angle is reached. This flow onset is determined by balancing hydrostatic and Laplace pressures.

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Area of Science:

  • Fluid dynamics
  • Interface science
  • Engineering

Background:

  • Understanding liquid drainage is crucial for designing fluid-handling systems.
  • The behavior of liquids exiting components is influenced by geometry and fluid properties.
  • Surface tension effects at orifices can impede or initiate flow.

Purpose of the Study:

  • To investigate the onset of liquid drainage from components with a single circular orifice.
  • To determine the critical angle of inclination required for flow initiation.
  • To develop and validate a theoretical model for drainage onset.

Main Methods:

  • Components were filled with water, ethylene glycol, or ethyl alcohol.
  • The components were oriented vertically with the orifice facing downwards and then slowly tilted.
  • The critical angle for the onset of drainage was measured.
  • A theoretical model was developed based on hydrostatic and Laplace pressures.

Main Results:

  • No liquid flow was observed until a critical angle of inclination was reached.
  • The onset of drainage was successfully modeled as a balance between hydrostatic pressure and Laplace pressure.
  • Laplace pressure exceeding hydrostatic pressure impeded flow.
  • The theoretical model provided reasonable estimates of the measured drainage onset angles.

Conclusions:

  • The critical angle for liquid drainage onset is governed by the interplay between hydrostatic and Laplace pressures.
  • The developed theoretical model accurately predicts drainage behavior in fluid-handling components.
  • This research offers insights into controlling liquid flow in various engineering applications.