• DocumentCode
    1425683
  • Title

    Methods for accurate estimation of net discharge in a tidal channel

  • Author

    Simpson, Michael R. ; Bland, Roger

  • Author_Institution
    US Geol. Survey, Sacramento, CA, USA
  • Volume
    25
  • Issue
    4
  • fYear
    2000
  • Firstpage
    437
  • Lastpage
    445
  • Abstract
    Accurate estimates of net residual discharge in tidally affected rivers and estuaries are possible because of recently developed ultrasonic discharge measurement techniques. Ultrasonic measurement methods consist of: 1) the use of ultrasonic instruments for the measurement of a representative "index" velocity used for in situ estimation of mean water velocity and 2) the use of the acoustic Doppler current discharge measurement system to calibrate the index velocity measurement data. Methods used to calibrate (rate) the index velocity to the channel velocity measured using the Acoustic Doppler Current Profiler are the most critical factors affecting the accuracy of net discharge estimation. The index velocity first must be related to mean channel velocity and then used to calculate instantaneous channel discharge. Finally, discharge is low-pass filtered to remove the effects of the tides. An ultrasonic velocity meter discharge-measurement site in a tidally affected region of the Sacramento-San Joaquin Rivers was used to study the accuracy of the index velocity calibration procedure. Calibration data consisting of ultrasonic velocity meter index velocity and concurrent acoustic Doppler discharge measurement data were collected during three time periods. Two sets of data were collected during a spring tide (monthly maximum tidal current) and one of data collected during a neap tide (monthly minimum tidal current). The relative magnitude of instrumental errors, acoustic Doppler discharge measurement errors, and calibration errors were evaluated.
  • Keywords
    Doppler measurement; acoustic applications; calibration; flow measurement; hydrological techniques; measurement errors; rivers; velocity measurement; Acoustic Doppler Current Profiler; Sacramento-San Joaquin Rivers; acoustic Doppler current discharge measurement; calibration; channel velocity; estuaries; in situ estimation; index velocity; low-pass filter; mean water velocity; measurement errors; net discharge; tidal channel; tidally affected rivers; ultrasonic discharge measurement; Acoustic measurements; Calibration; Current measurement; Instruments; Low pass filters; Measurement techniques; Rivers; Tides; Ultrasonic variables measurement; Velocity measurement;
  • fLanguage
    English
  • Journal_Title
    Oceanic Engineering, IEEE Journal of
  • Publisher
    ieee
  • ISSN
    0364-9059
  • Type

    jour

  • DOI
    10.1109/48.895351
  • Filename
    895351