Mixing process in estuaries

Jifu Zhou; Qingquan Liu; Jiachun Li

doi:10.1007/BF02889514

Mixing process in estuaries

Jifu Zhou^*, Qingquan Liu, Jiachun Li

^*Corresponding author for this work

CAS - Institute of Mechanics

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

A theoretical expression for vertical profile of horizontal velocity in terms of its depth-average is derived based on oscillatory boundary layer theory and estuarine flow characteristics. The derived theoretical profile is then incorporated into a vertical quasi-two-dimensional model, which is proved advantageous in more physical implications and less CPU time demand. To validate the proposed model, the calculated results are compared to the field data in the Yangtze River Estuary, exhibiting good agreement with observations. The proposed quasi-two-dimensional vertical model is used to study mixing process, especially dependence of salinity distribution and salt front strength on runoff and tides in estuaries.

Original language	English
Pages (from-to)	1110-1120
Number of pages	11
Journal	Science in China, Series A: Mathematics
Volume	42
Issue number	10
DOIs	https://doi.org/10.1007/BF02889514
Publication status	Published - Oct 1999
Externally published	Yes

Keywords

Estuaries
Mixing process
Oscillatory boundary layer
Salinity

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10.1007/BF02889514

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title = "Mixing process in estuaries",

abstract = "A theoretical expression for vertical profile of horizontal velocity in terms of its depth-average is derived based on oscillatory boundary layer theory and estuarine flow characteristics. The derived theoretical profile is then incorporated into a vertical quasi-two-dimensional model, which is proved advantageous in more physical implications and less CPU time demand. To validate the proposed model, the calculated results are compared to the field data in the Yangtze River Estuary, exhibiting good agreement with observations. The proposed quasi-two-dimensional vertical model is used to study mixing process, especially dependence of salinity distribution and salt front strength on runoff and tides in estuaries.",

keywords = "Estuaries, Mixing process, Oscillatory boundary layer, Salinity",

author = "Jifu Zhou and Qingquan Liu and Jiachun Li",

year = "1999",

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AU - Zhou, Jifu

AU - Liu, Qingquan

AU - Li, Jiachun

PY - 1999/10

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N2 - A theoretical expression for vertical profile of horizontal velocity in terms of its depth-average is derived based on oscillatory boundary layer theory and estuarine flow characteristics. The derived theoretical profile is then incorporated into a vertical quasi-two-dimensional model, which is proved advantageous in more physical implications and less CPU time demand. To validate the proposed model, the calculated results are compared to the field data in the Yangtze River Estuary, exhibiting good agreement with observations. The proposed quasi-two-dimensional vertical model is used to study mixing process, especially dependence of salinity distribution and salt front strength on runoff and tides in estuaries.

AB - A theoretical expression for vertical profile of horizontal velocity in terms of its depth-average is derived based on oscillatory boundary layer theory and estuarine flow characteristics. The derived theoretical profile is then incorporated into a vertical quasi-two-dimensional model, which is proved advantageous in more physical implications and less CPU time demand. To validate the proposed model, the calculated results are compared to the field data in the Yangtze River Estuary, exhibiting good agreement with observations. The proposed quasi-two-dimensional vertical model is used to study mixing process, especially dependence of salinity distribution and salt front strength on runoff and tides in estuaries.

KW - Estuaries

KW - Mixing process

KW - Oscillatory boundary layer

KW - Salinity

UR - http://www.scopus.com/inward/record.url?scp=0041724172&partnerID=8YFLogxK

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JO - Science in China, Series A: Mathematics

JF - Science in China, Series A: Mathematics

IS - 10

ER -

Mixing process in estuaries

Abstract

Keywords

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