@article{b1d6578733a2414a9f757d118b987ef3,
title = "Applicability of acoustic Doppler devices for flow velocity measurements and discharge estimation in flows with sediment transport",
abstract = "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 (≥ 150μm) 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 (≤150μm) were transported in suspension; this underestimation was shown to reach 20-30\% when suspended sediment concentrations were very high (c. 50-100gL-1).",
keywords = "Acoustic Doppler, Bedload, Discharge, Sediment transport, Suspended sediment concentration, Velocity",
author = "Guillaume Nord and Francesc Gallart and Nicolas Gratiot and Montserrat Soler and Ian Reid and Dina Vachtman and Latron, \{J{\'e}r {\^O}me\} and Mart{\'i}n-Vide, \{Juan Pedro\} and Laronne, \{Jonathan B.\}",
note = "Funding Information: 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. G. Nord was a beneficiary of a contract from the Spanish Ministry of Science and Innovation during the collection of the data in the Cal Rod{\'o} research catchment. J. Latron was beneficiary of a {\textquoteleft}Ram{\'o}n y Cajal{\textquoteright} contract funded by the Spanish Ministry of Science and Innovation. The Loughborough flume experiments were undertaken while J.B. Laronne was in receipt of a Leverhulme Trust Professorship. The authors wish to thank Joaquim Farguell for his help during the experiment in the Loughborough flume. Funds for the deployment of the Starflow at the Ein Fesh{\textquoteright}ha springs were provided by the German Ministry of Science (BMBF) within the SUMAR project and by the Israel Hydrological Service. The authors wish to thank the Hydraulics Engineering Department of the Polytechnic University of Catalonia for hosting the flume experiment with the physical hydraulic scale model of the Cal Rod{\'o} gauging station and G. Catari for his help during the experiment in the Sant Jordi irrigation canal. We are also grateful to D. Hurther and L.I. Petitpierre for sharing constructive discussions. We would like to thank L. Mateos, J. Blake and two anonymous referees for their constructive comments on earlier versions of this paper. ",
year = "2014",
month = feb,
day = "13",
doi = "10.1016/j.jhydrol.2013.11.020",
language = "English",
volume = "509",
pages = "504--518",
journal = "Journal of Hydrology",
issn = "0022-1694",
publisher = "Elsevier B.V.",
}