Three-dimensional modelling of a very large river: the Rio Paraná

S.D. Sandbach; R.J. Hardy; S.N. Lane; D.R. Parsons; J.L. Best; Philip Ashworth; A.J.H. Reesink; M.L. Amsler; R.N. Szupiany; A.P. Nicholas; O. Orfeo; G.H. Sambrook-Smith

Three-dimensional modelling of a very large river: the Rio Paraná

S.D. Sandbach, R.J. Hardy, S.N. Lane, D.R. Parsons, J.L. Best, Philip Ashworth, A.J.H. Reesink, M.L. Amsler, R.N. Szupiany, A.P. Nicholas, O. Orfeo, G.H. Sambrook-Smith

University of Brighton

Research output: Chapter in Book/Conference proceeding with ISSN or ISBN › Chapter › peer-review

Abstract

Our current understanding of the world’s largest rivers is limited due to the difficulties in obtaining detailed, spatially-distributed, flow and morphological data. Recent progress has been made in obtaining data-rich results, using Computational Fluid Dynamic (CFD) models within smaller river reaches, but the application of CFD to large rivers has not been fully developed due to our inability to: i) design numerically-stable meshes for complex topographies, and ii) collect high resolution data appropriate for model boundary conditions. Here, we test a new five-term mass-flux scaling algorithm to include bed topography over large spatial scales, where the discretised form of the mass and momentum equations are modified using a mass-flux scalling approach. Converged solutions were obtained using Reynolds-Averaged Navier Stokes (RANS) equations with a κ–ε RNG turbulence closure. Topographic and velocity data were collected for a 38 km reach in the Río Paraná, Argentina, to provide boundary conditions and validation data. The model results demonstrate the importance of topographic steering on determining flow structures in large rivers and the difficulties in objectively identifying coherent secondary flows.

Original language	English
Title of host publication	Proceedings of the IAHR River Flow Conference
Editors	A. Dittrich, Ka Koll, J. Aberle, P. Geisenhainer
Place of Publication	Germany
Publisher	Bundesanstalt fuer Wasserbau
Pages	409-417
Number of pages	9
Volume	1
ISBN (Print)	9783939230007
Publication status	Published - 1 Sep 2010

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Sandbach, S. D., Hardy, R. J., Lane, S. N., Parsons, D. R., Best, J. L., Ashworth, P., Reesink, A. J. H., Amsler, M. L., Szupiany, R. N., Nicholas, A. P., Orfeo, O., & Sambrook-Smith, G. H. (2010). Three-dimensional modelling of a very large river: the Rio Paraná. In A. Dittrich, K. Koll, J. Aberle, & P. Geisenhainer (Eds.), Proceedings of the IAHR River Flow Conference (Vol. 1, pp. 409-417). Bundesanstalt fuer Wasserbau.

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title = "Three-dimensional modelling of a very large river: the Rio Paran{\'a}",

abstract = "Our current understanding of the world{\textquoteright}s largest rivers is limited due to the difficulties in obtaining detailed, spatially-distributed, flow and morphological data. Recent progress has been made in obtaining data-rich results, using Computational Fluid Dynamic (CFD) models within smaller river reaches, but the application of CFD to large rivers has not been fully developed due to our inability to: i) design numerically-stable meshes for complex topographies, and ii) collect high resolution data appropriate for model boundary conditions. Here, we test a new five-term mass-flux scaling algorithm to include bed topography over large spatial scales, where the discretised form of the mass and momentum equations are modified using a mass-flux scalling approach. Converged solutions were obtained using Reynolds-Averaged Navier Stokes (RANS) equations with a κ–ε RNG turbulence closure. Topographic and velocity data were collected for a 38 km reach in the R{\'i}o Paran{\'a}, Argentina, to provide boundary conditions and validation data. The model results demonstrate the importance of topographic steering on determining flow structures in large rivers and the difficulties in objectively identifying coherent secondary flows.",

author = "S.D. Sandbach and R.J. Hardy and S.N. Lane and D.R. Parsons and J.L. Best and Philip Ashworth and A.J.H. Reesink and M.L. Amsler and R.N. Szupiany and A.P. Nicholas and O. Orfeo and G.H. Sambrook-Smith",

year = "2010",

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day = "1",

language = "English",

isbn = "9783939230007",

volume = "1",

pages = "409--417",

editor = "A. Dittrich and Ka Koll and J. Aberle and P. Geisenhainer",

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Sandbach, SD, Hardy, RJ, Lane, SN, Parsons, DR, Best, JL, Ashworth, P, Reesink, AJH, Amsler, ML, Szupiany, RN, Nicholas, AP, Orfeo, O & Sambrook-Smith, GH 2010, Three-dimensional modelling of a very large river: the Rio Paraná. in A Dittrich, K Koll, J Aberle & P Geisenhainer (eds), Proceedings of the IAHR River Flow Conference. vol. 1, Bundesanstalt fuer Wasserbau, Germany, pp. 409-417.

Three-dimensional modelling of a very large river: the Rio Paraná. / Sandbach, S.D.; Hardy, R.J.; Lane, S.N. et al.

Proceedings of the IAHR River Flow Conference. ed. / A. Dittrich; Ka Koll; J. Aberle; P. Geisenhainer. Vol. 1 Germany : Bundesanstalt fuer Wasserbau, 2010. p. 409-417.

Research output: Chapter in Book/Conference proceeding with ISSN or ISBN › Chapter › peer-review

TY - CHAP

T1 - Three-dimensional modelling of a very large river: the Rio Paraná

AU - Sandbach, S.D.

AU - Hardy, R.J.

AU - Lane, S.N.

AU - Parsons, D.R.

AU - Best, J.L.

AU - Ashworth, Philip

AU - Reesink, A.J.H.

AU - Amsler, M.L.

AU - Szupiany, R.N.

AU - Nicholas, A.P.

AU - Orfeo, O.

AU - Sambrook-Smith, G.H.

PY - 2010/9/1

Y1 - 2010/9/1

N2 - Our current understanding of the world’s largest rivers is limited due to the difficulties in obtaining detailed, spatially-distributed, flow and morphological data. Recent progress has been made in obtaining data-rich results, using Computational Fluid Dynamic (CFD) models within smaller river reaches, but the application of CFD to large rivers has not been fully developed due to our inability to: i) design numerically-stable meshes for complex topographies, and ii) collect high resolution data appropriate for model boundary conditions. Here, we test a new five-term mass-flux scaling algorithm to include bed topography over large spatial scales, where the discretised form of the mass and momentum equations are modified using a mass-flux scalling approach. Converged solutions were obtained using Reynolds-Averaged Navier Stokes (RANS) equations with a κ–ε RNG turbulence closure. Topographic and velocity data were collected for a 38 km reach in the Río Paraná, Argentina, to provide boundary conditions and validation data. The model results demonstrate the importance of topographic steering on determining flow structures in large rivers and the difficulties in objectively identifying coherent secondary flows.

AB - Our current understanding of the world’s largest rivers is limited due to the difficulties in obtaining detailed, spatially-distributed, flow and morphological data. Recent progress has been made in obtaining data-rich results, using Computational Fluid Dynamic (CFD) models within smaller river reaches, but the application of CFD to large rivers has not been fully developed due to our inability to: i) design numerically-stable meshes for complex topographies, and ii) collect high resolution data appropriate for model boundary conditions. Here, we test a new five-term mass-flux scaling algorithm to include bed topography over large spatial scales, where the discretised form of the mass and momentum equations are modified using a mass-flux scalling approach. Converged solutions were obtained using Reynolds-Averaged Navier Stokes (RANS) equations with a κ–ε RNG turbulence closure. Topographic and velocity data were collected for a 38 km reach in the Río Paraná, Argentina, to provide boundary conditions and validation data. The model results demonstrate the importance of topographic steering on determining flow structures in large rivers and the difficulties in objectively identifying coherent secondary flows.

M3 - Chapter

SN - 9783939230007

VL - 1

SP - 409

EP - 417

BT - Proceedings of the IAHR River Flow Conference

A2 - Dittrich, A.

A2 - Koll, Ka

A2 - Aberle, J.

A2 - Geisenhainer, P.

PB - Bundesanstalt fuer Wasserbau

CY - Germany

ER -

Three-dimensional modelling of a very large river: the Rio Paraná

Abstract

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