A one-dimensional Boussinesq-type momentum model for steady rapidly varied open channel flows

Zerihun, Yebegaeshet Tsegaye

Unknown Date

The depth-averaged Saint-Venant equations, which are used for most computational flow models, are adequate in simulating open channel flows with insignificant curvatures of streamlines. However, these equations are insufficient when applied to flow problems where the effects of non-hydrostatic pressure distribution are predominant. This study provides a comprehensive examination of the feasibility of a simple one-dimensional Boussinesq-type model equation for such types of flow problems. This equation, which allows for curvature of the free surface and a non-hydrostatic pressure distribution, is derived using the momentum principle together with the assumption of a constant centrifugal term at a vertical section. Besides, two Boussinesq-type model equations that incorporate different degrees of corrections for the effects of the curvature of the streamline are investigated in this work. One model, the weakly curved flow equation model, is the simplified version of the flow model based on a constant centrifugal term for flow situations that involve weak streamline curvature and slope, and the other, the Boussinesq-type momentum equation linear model is developed based on the assumption of a linear variation of centrifugal term with depth.

Experimental Investigation On Sharp Crested Rectangular Weirs

Sisman, H. Cigdem

01 August 2009

Sharp crested rectangular weirs used for discharge measurement purposes in open channel hydraulics are investigated experimentally. A series of experiments were conducted by measuring discharge and head over the weir for different weir heights for full width weir. It is seen that after a certain weir height, head and discharge relation does not change. Hence a constant weir height is determined. For that height / discharge and head over the weir are measured for variable weir width, starting from the full width weir to slit weir. Description of the discharge coefficient valid for the full range of weir widths and an empirical expression involving dimensionless flow variables is aimed. Experimental data obtained for this purpose and the results of the regression analysis performed are represented.

TC Hydraulic Engineering 1-978

3D numerical simulation of turbulent open-channel flow through vegetation

Kim, Su Jin

14 November 2011

A comprehensive understanding of the hydrodynamics in vegetated open-channels and flow-vegetation interaction is of high interest to researchers and practitioners alike for instance in the content of river and coastal restoration schemes. The focus of this study was to investigate the effect of the presence of vegetation on flow resistance, turbulence statistics, and the instantaneous flow in open channels by performing three-dimensional computational-fluid-dynamics (CFD) simulations. Firstly, fully developed turbulent flow in fully-vegetated channel was analyzed by employing the method of high-resolution Large-Eddy Simulation (LES). Flow through a staggered array of rigid, emergent cylinders was simulated and the LES was validated through experiments. After validation, numerical simulations were performed at an extended parameter range of two different cylinder Reynolds numbers (ReD = 500 and 1340) and three different vegetation densities (φ = 0.016, 0.063, and 0.251). Flow structures and statistics were analyzed on the instantaneous flow and the effect of the vegetation density and cylinder Reynolds number was assessed. Moreover, drag forces exerted on the cylinders were calculated explicitly, and the effect of both ReD and φ on the drag coefficient was quantified. Secondly, two new alternative simulation strategies, a RANS based strategy with a vegetative closure model and a low-resolution Large-Eddy Simulation, were devised. They were evaluated by simulating several experimental cases with diverse conditions of the cylinder arrangement (i.e., staggered vs. random distribution), vegetation densities (φ = 0.016, 0.022, 0.063, 0.087, 0.091, 0.150, and 0.251), and cylinder Reynolds number (ReD = 170 - 1700). For the RANS based strategy, the importance of a-priori knowledge was assessed, and for the low-resolution LES, the efficiency and accuracy was demonstrated. Finally, a numerical strategy based on a porosity approach was developed and applied to open-channel flow through a natural plant. The simulated velocities were compared with experimentally acquired ones and results showed reasonable agreement. The results obtained in this research contribute to the understanding of fundamental mechanism of flow-vegetation interaction in vegetated open-channels, resolving turbulent flow-vegetation interaction explicitly. In addition, the new numerical strategies developed as part of this research are expected to allow describing the behavior of turbulent flow through artificial and natural vegetation with high efficiency and accuracy.

Open-channel flow

RANS

LES

Vegetation

Numerical simulations

Fluid dynamics

Eddies

Stream restoration

Computational fluid dynamics

Magnetotelluric constraints on the role of fluids in convergent plate boundaries

Rippe, Dennis

Unknown Date

No description available.

Canadian Cordillera

Tibetan Plateau

Subduction zone

Continent-continent collision

Magnetotellurics

Rheology

Dehydration melting

Channel flow

Modelling of Bingham Suspensional Flow : Influence of Viscosity and Particle Properties Applicable to Cementitious Materials

Gram, Annika

January 2015

Simulation of fresh concrete flow has spurged with the advent of Self-Compacting Concrete, SCC. The fresh concrete rheology must be compatible with the reinforced formwork geometry to ensure complete and reliable form filling with smooth concrete surfaces. Predicting flow behavior in the formwork and linking the required rheological parameters to flow tests performed on the site will ensure an optimization of the casting process. In this thesis, numerical simulation of concrete flow and particle behaviour is investigated, using both discrete as well as a continuous approach. Good correspondence was achieved with a Bingham material model used to simulate concrete laboratory tests (e.g. slump flow). It is known that aggregate properties such as size, shape and surface roughness as well as its grading curve affect fresh concrete properties. An increased share of non-spherical particles in concrete increases the level of yield stress, τ0, and plastic viscosity, µpl. The yield stress level may be decreased by adding superplasticizers, however, the plastic viscosity may not. An explanation for the behaviour of particles is sought after experimentally, analytically and numerically. Bingham parameter plastic viscosity is experimentally linked to particle shape. It was found that large particles orient themselves aligning their major axis with the fluid flow, whereas small particles in the colloidal range may rotate between larger particles. The rotation of crushed, non-spherical fine particles as well as particles of a few microns that agglomorate leads to an increased viscosity of the fluid. Generally, numerical simulation of large scale quantitative analyses are performed rather smoothly with the continuous approach. Smaller scale details and phenomena are better captured qualitatively with the discrete particle approach. As computer speed and capacity constantly evolves, simulation detail and sample volume will be allowed to increase. A future merging of the homogeneous fluid model with the particle approach to form particles in the fluid will feature the flow of concrete as the physical suspension that it represents. One single ellipsoidal particle in fluid was studied as a first step. / <p>QC 20150326</p>

Self-Compacting Concrete

SCC

Fresh concrete flow

Numerical simulation

Viscosity

Open channel flow

AN INVESTIGATION OF THE REYNOLDS NUMBER DEPENDENCE OF THE NEAR-WALL PEAK IN CANONICAL WALL BOUNDED TURBULENT CHANNEL FLOW

Estejab, Bahareh

01 January 2011

An experimental investigation into fully developed high aspect ratio channels was undertaken. A review of the literature reveals that there is a need for accurate measurement of the inner peak value of streamwise turbulence intensity despite the large number of studies already completed. The scattered data on this subject could be attributed either to insufficient channel size (aspect ratio or length) or to hot-wire spatial filtering. A new, high quality, channel flow facility was designed and constructed, considering the most recent geometric limitation provided in the literature. To obtain accurate results, data were acquired using hot-wire probes with constant viscous-scale sensing length and were corrected using the most recent correction formula proposed by Smits et al. (2011). The results show dependence of inner peak value on Reynolds number in channels flow - its magnitude increasing with increasing Reynolds number.

channel flow

inner-peak value

streamwise turbulence intensity

hot-wire

anemometry

turbulent flow

Mechanical Engineering

[en] SIMILAR SOLUTION FOR THE FORCED-CONVECTION LAMINAR FLOW THROUGH A CONVERGENT CHANNEL USING THE CROCCO S TRANSFORMATION / [pt] SOLUÇÃO SIMILAR PARA ESCOAMENTO LAMINAR EM CONVECÇÃO FORÇADA NUM CANAL CONVERGENTE ATRAVÉS DA TRANSFORMAÇÃO DE CROCCO

PABLO ENRIQUE TRIGO JORQUERA

06 April 2018

[pt] Utiliza-se a variável de similaridade proposta por L. Crocco para transformar as equações da camada limite, hidrodinâmica e térmica no escoamento laminar bi-dimensional de um fluido com propriedades fisicas constantes em um canal convergente. As equações de conservação de massa, momentum e energia, que formam um sistema de três equações diferenciais parciais não lineares são modificadas num novo sistema composto de equações diferenciais ordinárias. Estes escoamentos, que admitem soluções similares são resolvidos e apresentam-se soluções para várias combinações dos parâmetros envolvidos. Na solução destes casos considera-se inclusive o efeito da função dissipação. Para alguns dos resultados obtidos no presente trabalho foi possível comparar com soluções existentes na literatura especializada, e uma excelente concordância foi observada. Entre os resultados apresentados, destacam-se expressões para o número de Nusselt local como função dos números de Prandtl e de Reynolds. / [en] The similarity variable proposed by L.Crocco is employed in this work to transform the boundary layer equations for the constant-property, two dimensional, laminar flow in a convergent channel. The governing equations (conservation of mass, momentum and energy) constitute a set of three non-linear partial differential equations. These equations are transformed into a simpler set of ordinary differential equations. Solutions of this transformed set are presented for several combinations of the relevant parameters. Among the effects studied in the heat generation due to viscous forces. When possible, comparisions with available results were made, and an excellent agreement was observed. Among the results presented, are of special practical interest the expressions for the local Nusselt number as a function of the Prandtl and Reynolds numbers.

[pt] TRANSFORMACAO DE CROCCO

[en] CROCCO TRANSFORMATION

[pt] ESCOAMENTO EM CANAL CONVERGENTE

[en] CONVERGENT CHANNEL FLOW

Caractérisation des écoulements turbulents à proximité d'une paroi par PIV tomographique / Characterization of near-wall turbulent flows by tomographic PIV

Jessen Werneck de Almeida Martins, Fabio

26 September 2016

L'étude fondamentale des structures turbulentes proche paroi est d'une significative importance en raison de son rôle dominant dans nombreuses applications d'ingénierie. Dans les écoulements turbulents, structures d'échelles différentes interagissent dans un phénomène complexe caractérisé par un processus autonome et continu. Bien que la présence de modèles de mouvements cohérents semble entretenir la turbulence, l'évolution et l'interaction de ces structures ne sont pas encore complètement compris. Pour analyser ces phénomènes, études d’ecoulements turbulents à proximité de paróis ont été effectuées sur une plaque plane dans une soufflerie et à l'intérieur d'un canal carré d'eau. Ce travail a employé une technique tomographique de vélocimétrie par images de particules pour mesurer de champs de vitesse tridimensionnel. Le traitement des données a été optimisé afin d'améliorer la précision des champs de vecteurs mesurés. Les mesures réalisées ont permis d’obtenir des statistiques conditionnelles des structures cohérentes, à savoir, les régions à faible et à grande vitesse, les "sweeps", les "ejections" et les tourbillons. Les résultats quantitatifs ont montré des structures tourbillonnaires distribués sur tout le flux, cependant, concentrée au voisinage des régions à faible vitesse et des "ejections". Les résultats ont indiqué que les structures tourbillonnaires étaient indirectement corrélés avec le processus de production de la turbulence, bien qu'ils ont été les principaux responsables de la dissipation d'énergie turbulente. / The fundamental study of turbulent structures near a wall is of significant importance due to its dominant role in innumerous engineering applications. In turbulent flows, eddies of different scales interact with each other in a complex phenomenon of a continuous self-sustaining process. Although the presence of patterns of coherent motion seem to be responsible for the maintenance of turbulence, the evolution and the interaction of these structures are still not completely understood. To investigate such phenomena, near-wall turbulent flows over a smooth flat plate in a wind tunnel and inside a square water channel were conducted. The present work employed a high-repetition tomographic PIV technique to measure three dimensional, time-resolved velocity fields. The tomo-PIV processing was optimized in order to improve the algorithm performance and the vector fields accuracy. Conditional statistics of coherent structures, namely, low- and high-speed regions, sweeps, ejections and vortices, were computed, providing quantitative characteristics of these structures. The statistical analyses were performed employing a data post-processing code specially developed for the present work. Results showed vortical structures spread all over the flow, nevertheless, concentrated close to low-speed regions and ejections. Results indicated that vortical structures were indirectly correlated with the process of turbulence production, although they were the main responsible for the turbulent energy dissipation.

Tomo-PIV

BIMART

Turbulence

Débit en Canal

Couche Limite

Tomo-PIV

BIMART

Turbulence

Channel Flow

Boundary Layer

FUNDAMENTAL STUDY ON UNDULAR AND DISCONTINUOUS HYDRAULIC JUMPS BY MEANS OF ＡSIMPLIFIED MOMENTUM EQUATION / 簡易型運動量方程式を用いた波状跳水及び不連続跳水に関する基礎的研究

THIN, THWE THWE

23 September 2020

京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第22756号 / 工博第4755号 / 新制||工||1744(附属図書館) / 京都大学大学院工学研究科都市社会工学専攻 / (主査)教授 細田 尚, 教授 戸田 圭一, 准教授 音田 慎一郎 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM

Open Channel Flow

Undular Hydraulic Jump

Strong Hydraulic Jump

Momentum Equation

Shallow Water Equation

500

Ability of ADV Measurements to Detect Turbulence Differences Between Angular and Rounded Gravel Beds of Intermediate - Roughness Scale

Haws, Benjamin B.

16 July 2008

A set of laboratory experiments was carried out to distinguish flow characteristics(bed origin, shear velocity, turbulence intensity, turbulent kinetic energy) between beds of differing gravel angularity. Ten vertical profiles of velocity measurements were taken from angular and rounded fixed gravel beds with a 16 MHz micro acoustic Doppler velocimeter (ADV) sampling at 50 Hz. Both gravel beds had a bottom slope of 0.2% and were in the intermediate - roughness scale. Shear velocities were calculated using three common methods: St Venant, Reynolds stress, and Clauser. The Reynolds stress method resulted in the closest visual match to turbulence distributions proposed by others. The bed origin was found to be on average 0.24D50 and 0.21D50 for the angular and rounded gravel beds respectively. These differences, however, were not statistically significant. Turbulence intensity within 20% of the bed showed considerable scatter. The difficult measuring conditions likely prevented the ADV to detect significant differences of turbulence intensity in the longitudinal and transverse directions between the two gravel beds. But the ADV measurements in the vertical direction may well resolve turbulence even in difficult flow conditions (determined by acoustic Doppler performance curve formulation). For the vertical direction, the angular gravel bed showed an increase in TImax that extended throughout the profile. The increased turbulence intensity had a concomitant effect of increasing the turbulent kinetic energy for the angular bed.

ADV

open-channel flow

acoustic Doppler velocimeter

roughness

turbulence

Civil and Environmental Engineering