Real-time discharge measurement in tidal streams by an index velocity

• Published in: Environmental monitoring and assessment Vol. 184; no. 10; pp. 6423 - 6436
• Main Authors: Chen, Yen-Chang, Yang, Tsung-Ming, Hsu, Nien-Sheng, Kuo, Ting-Ming
• Format: Journal Article
• Language: English
• Published: Dordrecht Springer Netherlands 01.10.2012; Springer Nature B.V
• Subjects: Atmospheric Protection/Air Quality Control/Air Pollution; chemistry; cost effectiveness; Cost-Benefit Analysis; Creeks & streams; Discharge measurement; Earth and Environmental Science; Ecology; economics; Ecotoxicology; Environment; Environmental Management; Environmental Monitoring; Environmental Monitoring - economics; Environmental Monitoring - methods; equations; Methods; monitoring; Monitoring/Environmental Analysis; probability; Real time; rivers; Rivers - chemistry; Streams; Studies; Taiwan; Velocity; Velocity distribution; Water Movements; Water quality; Taiwan; Taiwan, Taipei; Taiwan, Tanshui R; Index velocity; Tidal streams; Velocity distribution; Discharge measurement
• ISSN: 0167-6369; 1573-2959; 1573-2959
• DOI: 10.1007/s10661-011-2430-y

Discharge measurement in a tidal stream is always a difficult task. Owing to the complex flow conditions, discharge measurement in tidal streams has to be finished quickly, and must be highly efficient in order to yield an accurate measurement of real-time discharge. Measuring the discharge of tidal streams is done in three steps: (1) establishing the stage and cross-sectional area relation, (2) estimating the index velocity by using a velocity distribution equation based on the probability concept, (3) establishing the relationship between the index and mean velocities. Then the cross-sectional area and mean velocity can be estimated by the gage height and index velocity, respectively. The discharge of tidal streams is computed as the product of the cross-sectional area and mean velocity. The velocity distribution of the Taipei Bridge and Guan-du Bridge in the Tanshui River were established and analyzed to demonstrate the use of discharge measurement by index velocity for estimating the discharge of this tidal stream. The results reveal no large difference between the discharges measured by the conventional methods and the index velocity. This pilot study proposed a cost-effectiveness and efficient method. It is an easy, quick, and accurate model for measuring the real-time discharge of a tidal stream. It makes automatic, real-time, and continuous monitoring of the discharge in a tidal stream become possible.