Numerical simulation of a submerged circular turbulent jet impinging on flat and eroded boundaries

Z. F. Haque; V. M. Carrillo Serrano; J. E. Petrie

doi:10.1201/9781315644479-19

Numerical simulation of a submerged circular turbulent jet impinging on flat and eroded boundaries

Z. F. Haque, V. M. Carrillo Serrano, J. E. Petrie

Washington State University Pullman

Producción científica: Capítulo del libro/informe/acta de congreso › Contribución a la conferencia › revisión exhaustiva

Resumen

Soil erosion may degrade water quality, cause riverbank instability, and damage infrastructure. Cohesive soil erosion is a complex process that depends on the physical, chemical and biological properties of soil as well as the interactions among properties. The jet erosion test is a cost-effective tool to measure erodibility of cohesive soils. In this test, erosion is generated by a submerged turbulent jet impinging on the soil surface. Erosion is assumed to be generated by the maximum shear stress due to the jet. A number of empirical models have been proposed to calculate this shear stress. This study presents the results of the application of Computational Fluid Dynamics (CFD) to study the shear stress distribution of a circular turbulent jet impinging on both non-eroded (flat) and idealized eroded boundaries. The numerical results for the maximum shear stress are compared with existing models.

Idioma original	Inglés
Título de la publicación alojada	River Flow - Proceedings of the International Conference on Fluvial Hydraulics, RIVER FLOW 2016
Editores	George Constantinescu, Marcelo Garcia, Dan Hanes
Editorial	CRC Press/Balkema
Páginas	96-100
Número de páginas	5
ISBN (versión impresa)	9781138029132
DOI	https://doi.org/10.1201/9781315644479-19
Estado	Publicada - 2016
Evento	International Conference on Fluvial Hydraulics, RIVER FLOW 2016 - St. Louis, Estados Unidos Duración: 11 jul. 2016 → 14 jul. 2016

Serie de la publicación

Nombre	River Flow - Proceedings of the International Conference on Fluvial Hydraulics, RIVER FLOW 2016

Conferencia

Conferencia	International Conference on Fluvial Hydraulics, RIVER FLOW 2016
País/Territorio	Estados Unidos
Ciudad	St. Louis
Período	11/07/16 → 14/07/16

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10.1201/9781315644479-19

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Haque, Z. F., Carrillo Serrano, V. M., & Petrie, J. E. (2016). Numerical simulation of a submerged circular turbulent jet impinging on flat and eroded boundaries. En G. Constantinescu, M. Garcia, & D. Hanes (Eds.), River Flow - Proceedings of the International Conference on Fluvial Hydraulics, RIVER FLOW 2016 (pp. 96-100). (River Flow - Proceedings of the International Conference on Fluvial Hydraulics, RIVER FLOW 2016). CRC Press/Balkema. https://doi.org/10.1201/9781315644479-19

Haque, Z. F. ; Carrillo Serrano, V. M. ; Petrie, J. E. / Numerical simulation of a submerged circular turbulent jet impinging on flat and eroded boundaries. River Flow - Proceedings of the International Conference on Fluvial Hydraulics, RIVER FLOW 2016. editor / George Constantinescu ; Marcelo Garcia ; Dan Hanes. CRC Press/Balkema, 2016. pp. 96-100 (River Flow - Proceedings of the International Conference on Fluvial Hydraulics, RIVER FLOW 2016).

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title = "Numerical simulation of a submerged circular turbulent jet impinging on flat and eroded boundaries",

abstract = "Soil erosion may degrade water quality, cause riverbank instability, and damage infrastructure. Cohesive soil erosion is a complex process that depends on the physical, chemical and biological properties of soil as well as the interactions among properties. The jet erosion test is a cost-effective tool to measure erodibility of cohesive soils. In this test, erosion is generated by a submerged turbulent jet impinging on the soil surface. Erosion is assumed to be generated by the maximum shear stress due to the jet. A number of empirical models have been proposed to calculate this shear stress. This study presents the results of the application of Computational Fluid Dynamics (CFD) to study the shear stress distribution of a circular turbulent jet impinging on both non-eroded (flat) and idealized eroded boundaries. The numerical results for the maximum shear stress are compared with existing models.",

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Haque, ZF, Carrillo Serrano, VM & Petrie, JE 2016, Numerical simulation of a submerged circular turbulent jet impinging on flat and eroded boundaries. En G Constantinescu, M Garcia & D Hanes (eds.), River Flow - Proceedings of the International Conference on Fluvial Hydraulics, RIVER FLOW 2016. River Flow - Proceedings of the International Conference on Fluvial Hydraulics, RIVER FLOW 2016, CRC Press/Balkema, pp. 96-100, International Conference on Fluvial Hydraulics, RIVER FLOW 2016, St. Louis, Estados Unidos, 11/07/16. https://doi.org/10.1201/9781315644479-19

Numerical simulation of a submerged circular turbulent jet impinging on flat and eroded boundaries. / Haque, Z. F.; Carrillo Serrano, V. M.; Petrie, J. E.
River Flow - Proceedings of the International Conference on Fluvial Hydraulics, RIVER FLOW 2016. ed. / George Constantinescu; Marcelo Garcia; Dan Hanes. CRC Press/Balkema, 2016. p. 96-100 (River Flow - Proceedings of the International Conference on Fluvial Hydraulics, RIVER FLOW 2016).

Producción científica: Capítulo del libro/informe/acta de congreso › Contribución a la conferencia › revisión exhaustiva

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AU - Haque, Z. F.

AU - Carrillo Serrano, V. M.

AU - Petrie, J. E.

PY - 2016

Y1 - 2016

N2 - Soil erosion may degrade water quality, cause riverbank instability, and damage infrastructure. Cohesive soil erosion is a complex process that depends on the physical, chemical and biological properties of soil as well as the interactions among properties. The jet erosion test is a cost-effective tool to measure erodibility of cohesive soils. In this test, erosion is generated by a submerged turbulent jet impinging on the soil surface. Erosion is assumed to be generated by the maximum shear stress due to the jet. A number of empirical models have been proposed to calculate this shear stress. This study presents the results of the application of Computational Fluid Dynamics (CFD) to study the shear stress distribution of a circular turbulent jet impinging on both non-eroded (flat) and idealized eroded boundaries. The numerical results for the maximum shear stress are compared with existing models.

AB - Soil erosion may degrade water quality, cause riverbank instability, and damage infrastructure. Cohesive soil erosion is a complex process that depends on the physical, chemical and biological properties of soil as well as the interactions among properties. The jet erosion test is a cost-effective tool to measure erodibility of cohesive soils. In this test, erosion is generated by a submerged turbulent jet impinging on the soil surface. Erosion is assumed to be generated by the maximum shear stress due to the jet. A number of empirical models have been proposed to calculate this shear stress. This study presents the results of the application of Computational Fluid Dynamics (CFD) to study the shear stress distribution of a circular turbulent jet impinging on both non-eroded (flat) and idealized eroded boundaries. The numerical results for the maximum shear stress are compared with existing models.

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SN - 9781138029132

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BT - River Flow - Proceedings of the International Conference on Fluvial Hydraulics, RIVER FLOW 2016

A2 - Constantinescu, George

A2 - Garcia, Marcelo

A2 - Hanes, Dan

PB - CRC Press/Balkema

T2 - International Conference on Fluvial Hydraulics, RIVER FLOW 2016

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ER -

Haque ZF, Carrillo Serrano VM, Petrie JE. Numerical simulation of a submerged circular turbulent jet impinging on flat and eroded boundaries. En Constantinescu G, Garcia M, Hanes D, editores, River Flow - Proceedings of the International Conference on Fluvial Hydraulics, RIVER FLOW 2016. CRC Press/Balkema. 2016. p. 96-100. (River Flow - Proceedings of the International Conference on Fluvial Hydraulics, RIVER FLOW 2016). doi: 10.1201/9781315644479-19

Numerical simulation of a submerged circular turbulent jet impinging on flat and eroded boundaries

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