1 Scope
This document specifies methods for the measurement of flow in rivers and artificial
channels under steady or slowly varying flow conditions, using certain types of critical-depth
flumes (also known as “standing-wave flumes”). A wide variety of flumes has been developed,
but only those critical-depth flumes which have received general acceptance after
adequate research and field testing, and which therefore do not require in situ calibration, are considered herein.
The flow conditions considered are uniquely dependent on the upstream head, i.e. subcritical
flow must exist upstream of the flume, after which the flow accelerates through the
contraction and passes through its critical depth (see Figure 1). The water level downstream of the structure is low enough to have no influence
upon its performance.
This document is applicable to three commonly used types of flumes, covering a wide
range of applications, namely rectangular-throated, trapezoidal-throated and U-throated.
The hydraulic theory behind this document was presented in Reference [7].
This document is not applicable to a form of flume referred to in the literature (sometimes
called a “Venturi” flume) in which the flow remains subcritical throughout.
NOTE The Venturi form of flume is based on the same principle as a Venturi meter used within
a closed conduit system and relies upon gauging the head at two locations and the
application of Bernoulli’s energy formula.
BS ISO 4359:2022 history
2023BS ISO 4359:2022 Flow measurement structures. Rectangular, trapezoidal and U-shaped flumes
2018BS ISO 4359:2013+A1:2017 Flow measurement structures - Rectangular, trapezoidal and U-shaped flumes
2013BS ISO 4359:2013 Flow measurement structures. Rectangular, trapezoidal and U-shaped flumes
0000 BS ISO 4359:1983
1981BS 3680-4C:1981 Methods of measurement of liquid flow in open channels - Weirs and flumes - Flumes