Acoustic Doppler devices (Unidata Starflow) have been deployed for velocity measurements and discharge estimates in five contrasted open-channel flow environments, with particular attention given to the influence of sediment transport on instrument performance. The analysis is based on both field observations and flume experiments. These confirm the ability of the Starflow to provide reliable discharge time-series, but point out its limitations when sediment is being transported. (i) After calibration of the instrument by the Index Velocity Method, the deviation from reference discharge measurements was < 20% at the 95% confidence level. (ii) In ungauged conditions at high flows, the Starflow was particularly useful in providing velocity data for approximating measurements of discharge. (iii) However, channel and flume experiments revealed the effects of mobilised sediment on velocity estimates: coarse particles (P 150 lm) transported by way of saltation or as bedload caused a significant underestimation of velocity by as much as 50%; a slight underestimation (10–15%) was also observed when significant quantities of fine particles (6150 lm) were transported in suspension; this underestimation was shown to reach 20–30% when suspended sediment concentrations were very high (c. 50–100 g L 1).

This research was supported by the PROBASE (CGL2006-11619/ HID) and RespHiMed (CGL2010-18374) projects funded by the Spanish Ministry of Science and Innovation and by the agreement (RESEL) between the CSIC and the Spanish Ministry of Environment.

15 páginas, 8 figuras, 4 tablas, 1 apéndice con 2 tablas.

Peer reviewed