AbstractRecent California legislation requires irrigation water agencies larger than 25,000 acres to measure volumetric water deliveries within specified levels of relative uncertainty. Although the meter gate is one of the most widely used flow measurement devices in California, little investigation has been conducted into the accuracy, limitations, and uncertainties of the rating tables developed over 60 years ago. A meter gate testing facility was constructed at the Cal Poly Irrigation Training and Research Center’s Water Resources Facility capable of testing gates up to 0.76 m (30 in.). The facility was constructed with gates oriented perpendicular to the supply channel flow to match actual field conditions. Three commonly used gate sizes of 0.30 m (12 in.), 0.46 m (18 in.), and 0.61 m (24 in.) were examined under a variety of upstream head, head loss, and gate opening conditions. Based on the limitations, guidelines are included to assist users and lower the uncertainty of these devices. It was found...
[1]
Charles M. Burt,et al.
Status and Needs Assessment: Survey of Irrigation Districts - USBR Mid-Pacific Region
,
1996
.
[2]
Albert J. Clemmens,et al.
Field Calibration of Submerged Sluice Gates in Irrigation Canals
,
2009
.
[3]
Fernando Cadena,et al.
Analytical Solution for Circular Gates as Flow Metering Structures
,
2005
.
[4]
Barry N. Taylor,et al.
Guidelines for Evaluating and Expressing the Uncertainty of Nist Measurement Results
,
2017
.
[5]
J. W. Ball.
Limitations of Metergates
,
1962
.
[6]
Willi H. Hager.
Circular Gates in Circular and U‐Shaped Channels
,
1987
.
[7]
Gaylord V. Skogerboe,et al.
Irrigation Maintenance and Operations Learning Process
,
1996
.