Numerical experiments of uni- and bi-directional exchange flows in a rotating trapezoidal sill-channel

Manel Grifoll; Alan Cuthbertson; Jarle Berntsen; Maria Chiara De Falco; Claudia Adduce

Numerical experiments of uni- and bi-directional exchange flows in a rotating trapezoidal sill-channel

Manel Grifoll
, Alan Cuthbertson
, Jarle Berntsen
, Maria Chiara De Falco
, Claudia Adduce

Civil Engineering

Research output: Contribution to conference › Paper › peer-review

Abstract

Results are presented for new laboratory-scale numerical simulations of uni- and bi-directional stratified flows generated within an idealized trapezoidal channel topography, as representative of net-barotropic exchange flows generated through sea straits between water masses with different densities. These simulations utilise the Bergen Ocean Model (BOM), a three-dimensional general ocean circulation model, both in non-rotating and rotating frames of reference. The results from the BOM simulations are aimed at simulating the large-scale experimental data obtained in the LEGI Coriolis rotating platform in Grenoble, within which velocity and density fields for exchange flows were measured through particle image velocimetry (PIV) and micro-conductivity density probes, respectively. The BOM simulations are shown to reproduce the main dynamic flow patterns and trends of the large-scale exchange flows through the trapezoidal channel, with the lower layer saline intrusion flux shown to reduce (i.e. due to partial blockage) as the upper freshwater flow is increased. These simulations represent preliminary numerical results and we expect that future simulations will improve overall representation of the interfacial region between the counter-flowing layers, and thus be relevant to many exchange flows generated in wide estuaries, sea straits and deep-ocean channels.

Original language	English
Number of pages	6
Publication status	Published - 24 Jun 2022
Event	39th IAHR World Congress: From Snow to Sea - Granada, Spain Duration: 19 Jun 2022 → 24 Jun 2022 https://iahrworldcongress.org/

Conference

Conference	39th IAHR World Congress
Country/Territory	Spain
City	Granada
Period	19/06/22 → 24/06/22
Internet address	https://iahrworldcongress.org/

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 6 Clean Water and Sanitation
SDG 7 Affordable and Clean Energy
SDG 14 Life Below Water

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Cite this

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title = "Numerical experiments of uni- and bi-directional exchange flows in a rotating trapezoidal sill-channel",

abstract = "Results are presented for new laboratory-scale numerical simulations of uni- and bi-directional stratified flows generated within an idealized trapezoidal channel topography, as representative of net-barotropic exchange flows generated through sea straits between water masses with different densities. These simulations utilise the Bergen Ocean Model (BOM), a three-dimensional general ocean circulation model, both in non-rotating and rotating frames of reference. The results from the BOM simulations are aimed at simulating the large-scale experimental data obtained in the LEGI Coriolis rotating platform in Grenoble, within which velocity and density fields for exchange flows were measured through particle image velocimetry (PIV) and micro-conductivity density probes, respectively. The BOM simulations are shown to reproduce the main dynamic flow patterns and trends of the large-scale exchange flows through the trapezoidal channel, with the lower layer saline intrusion flux shown to reduce (i.e. due to partial blockage) as the upper freshwater flow is increased. These simulations represent preliminary numerical results and we expect that future simulations will improve overall representation of the interfacial region between the counter-flowing layers, and thus be relevant to many exchange flows generated in wide estuaries, sea straits and deep-ocean channels. ",

author = "Manel Grifoll and Alan Cuthbertson and Jarle Berntsen and \{De Falco\}, \{Maria Chiara\} and Claudia Adduce",

year = "2022",

month = jun,

day = "24",

language = "English",

note = "39th IAHR World Congress : From Snow to Sea ; Conference date: 19-06-2022 Through 24-06-2022",

url = "https://iahrworldcongress.org/",

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TY - CONF

T1 - Numerical experiments of uni- and bi-directional exchange flows in a rotating trapezoidal sill-channel

AU - Grifoll, Manel

AU - Cuthbertson, Alan

AU - Berntsen, Jarle

AU - De Falco, Maria Chiara

AU - Adduce, Claudia

PY - 2022/6/24

Y1 - 2022/6/24

N2 - Results are presented for new laboratory-scale numerical simulations of uni- and bi-directional stratified flows generated within an idealized trapezoidal channel topography, as representative of net-barotropic exchange flows generated through sea straits between water masses with different densities. These simulations utilise the Bergen Ocean Model (BOM), a three-dimensional general ocean circulation model, both in non-rotating and rotating frames of reference. The results from the BOM simulations are aimed at simulating the large-scale experimental data obtained in the LEGI Coriolis rotating platform in Grenoble, within which velocity and density fields for exchange flows were measured through particle image velocimetry (PIV) and micro-conductivity density probes, respectively. The BOM simulations are shown to reproduce the main dynamic flow patterns and trends of the large-scale exchange flows through the trapezoidal channel, with the lower layer saline intrusion flux shown to reduce (i.e. due to partial blockage) as the upper freshwater flow is increased. These simulations represent preliminary numerical results and we expect that future simulations will improve overall representation of the interfacial region between the counter-flowing layers, and thus be relevant to many exchange flows generated in wide estuaries, sea straits and deep-ocean channels.

AB - Results are presented for new laboratory-scale numerical simulations of uni- and bi-directional stratified flows generated within an idealized trapezoidal channel topography, as representative of net-barotropic exchange flows generated through sea straits between water masses with different densities. These simulations utilise the Bergen Ocean Model (BOM), a three-dimensional general ocean circulation model, both in non-rotating and rotating frames of reference. The results from the BOM simulations are aimed at simulating the large-scale experimental data obtained in the LEGI Coriolis rotating platform in Grenoble, within which velocity and density fields for exchange flows were measured through particle image velocimetry (PIV) and micro-conductivity density probes, respectively. The BOM simulations are shown to reproduce the main dynamic flow patterns and trends of the large-scale exchange flows through the trapezoidal channel, with the lower layer saline intrusion flux shown to reduce (i.e. due to partial blockage) as the upper freshwater flow is increased. These simulations represent preliminary numerical results and we expect that future simulations will improve overall representation of the interfacial region between the counter-flowing layers, and thus be relevant to many exchange flows generated in wide estuaries, sea straits and deep-ocean channels.

UR - https://iahrworldcongress.org/

M3 - Paper

T2 - 39th IAHR World Congress

Y2 - 19 June 2022 through 24 June 2022

ER -

Numerical experiments of uni- and bi-directional exchange flows in a rotating trapezoidal sill-channel

Abstract

Conference

UN SDGs

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Numerical Experiments of Uni- And Bi-Directional Exchange Flows in A Rotating Trapezoidal Sill-Channel

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