Your search keyword '"Velocity power spectra"' showing total 7 results

1. Quantification of Wake Vortices Around Tandem Piers on Rigid Bed Channel

Author

Pasupuleti, L. N., Timbadiya, P. V., Patel, P. L., di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Timbadiya, P. V., editor, Patel, P. L., editor, Singh, Vijay P., editor, and Barman, Bandita, editor

Published

2023

2. Spectral analysis of the flows in seepage affected threshold alluvial channels

Author

Pradyumna Kumar Behera, Mayank Agarwal, Vishal Deshpande, and Bimlesh Kumar

Subjects

Downward seepage, Threshold alluvial channel, Length scale of turbulent motion, Velocity power spectra, Technology

Abstract

In order to comprehend potential changes in the hydrodynamics of flow under downward seepage condition when water is extracted from a threshold alluvial channel, investigations in a laboratory flume were carried out. Experiments in the present study, were organized in two categories: in absence of downward seepage and in presence of downward seepage. Increased in transport of bed-material in the channel was observed on introduction of downward seepage. Instantaneous velocity samples were collected employing an acoustic Doppler velocimeter (ADV) to calculate various length scales of turbulent motions such as: integral length scale, Taylor microscale, and Kolmogorov's microscale. An increase in the values of these length scales has been observed under the influence of downward seepage. Three sub-ranges in the velocity power spectra both for seepage and no-seepage situations are confirmed by the results of the spectral analysis in the channel near-bed area. Toward the channel bed, spectral densities were found increasing for both types of experiments. At every measurement location, velocity power spectra of the seepage experiment shifted toward higher spectral densities and higher frequencies than the power spectra of the no-seepage experiment. Moreover, the power spectra of seepage experiment were found flatter than that of the no-seepage experiment. This flatness in the velocity power spectra indicates an increased bed roughness when a threshold alluvial channel is subjected to downward seepage.

Published

2024

3. Flow Field Measurements Around Isolated, Staggered, and Tandem Piers on a Rigid Bed Channel.

Author

Pasupuleti, Laxmi Narayana, Timbadiya, Prafulkumar Vashrambhai, and Patel, Prem Lal

Subjects

PIERS, FLOW measurement, FLOW velocity, CHANNEL flow, POWER spectra, REYNOLDS stress

Abstract

Experimental investigations are presented on the characterization of flow turbulence and velocity fields around circular piers placed in isolated, tandem, and staggered arrangements in a rigid bed channel with identical flow conditions. Instantaneous velocity measurements are undertaken using a 16 MHz micro down-looking Acoustic Doppler Velocimeter (ADV) at different grid points along the flow depth. The streamline pattern obtained from the velocity fields is presented on vertical planes around the piers. Further, the resultant contours of vortices are plotted for all three types of arrangements, i.e., isolated, tandem, and staggered arrangements, to understand the strength of the vortices around the piers. Apart from the above investigations, the turbulence characteristics such as turbulence intensities, turbulent kinetic energy, velocity power spectra and Reynolds shear stresses at different planes are also presented for all three configurations of piers. The turbulence characteristics are used to identify the influence of one pier over others in the tandem and staggered arrangements compared to that of the isolated piers. The horseshoe vortex system, quantified by its vorticity and strength, is found to be predominant in the staggered configuration. A horseshoe vortex is formed at 0.36d, 0.9d and 0.35d (d is the diameter of the pier) upstream of the isolated pier, front piers of the tandem and front piers of the staggered case, respectively. A zone of recirculation is formed just upstream of the rear pier in the tandem case. The Reynolds shear stresses near the bed, turbulent kinetic energy and turbulence intensities are also found to be quite significant downstream of the front pier in the staggered arrangement compared to those in the isolated and tandem arrangements. The turbulent kinetic energy at the mid-flow depth is found to be 2.5 times higher than that near the bed. The velocity power spectra reveals that the strength of wake vortices is 2.5 times greater for the front piers of the staggered case than that of the tandem front piers with Strouhal numbers, S t = 0.26 and 0.112 for the staggered and tandem cases, respectively, near the bed. The present study enhances the understanding of the flow structure around isolated, tandem and staggered bridge piers. [ABSTRACT FROM AUTHOR]

Published

2022

4. Respond of Bedforms to Velocity Power Spectra of Acoustic-Doppler Velocimetry Data in Rough Mobile Beds.

Author

Ratul Das

Subjects

POWER spectra, VELOCITY, VELOCIMETRY, BEDS, FLOW velocity

Abstract

Present work aims to insight the influence of bedform transport on velocity power spectra of acoustic Doppler Velocimeter (ADV) in order to address different spectral sub-regimes. Laboratory experiments were conducted over two types of rough bed (d50 = 4 mm): (a) immobile rough bed and (b) mobile bedform. The near-bed spectral characteristics during bedform transport are compared with those in immobile rough bed. An ADV probe, named Vectrino+, manufactured by Nortek with acoustic frequency of 10 MHz was used to measure the velocity fluctuations in flows. Instrument noise and high-frequency fluctuation results furious spikes in the velocity signals and therefore, filtration of contaminated data was very much essential to obtain clear velocity power spectra. In this study the acceleration threshold method was applied successfully for filtering the data sets and the velocity power spectra of filtered data set are found to be well fitted the Kolmogorov "–5/3 scaling-law" in the inertial sub-range. Importantly, the spectral sub-regime at low frequencies with a spectral slope of about −1.0 occurred owing to the fact of bedforms development. The results of Taylor microscale and Kolmogorov scale reveal an amplification of eddy sizes in the near-bed flow region attributed to bedform transport and the drastic reduction in pressure energy diffusion in budget analysis implied gain in near-bed turbulence production. [ABSTRACT FROM AUTHOR]

Published

2020

5. Bora wind characteristics for engineering applications.

Author

Lepri, Petra, Vecenaj, Željko, Kozmar, Hrvoje, and Grisogono, Branko

Subjects

BORA, TURBULENCE, SHEARING force, WINDS, FRICTION velocity

Abstract

Bora is a strong, usually dry temporally and spatially transient wind that is common at die eastern Adriatic Coast and many other dynamically similar regions around the world. One of the Bora main characteristics is its gustiness, when wind velocities can reach up to five times the mean velocity. Bora often creates significant problems to traffic, structures and human life in general. In this study, Bora velocity and near-ground turbulence are studied using the results of three-level high-frequency Bora field measurements carried out on a meteorological tower near the city of Split, Croatia. These measurements are analyzed for a period from April 2010 until June 2011. This rather long period allows for making quite robust and reliable conclusions. The focus is on mean Bora velocity, turbulence intensity, Reynolds shear stress and turbulence length scale profiles, as well as on Bora velocity power spectra and thermal stratification. Tire results are compared with commonly used empirical laws and recommendations provided in the ESDU 85020 wind engineering standard to question its applicability to Bora. The obtained results report some interesting findings. In particular, the empirical power- and logarithmic laws proved to fit mean Bora velocity profiles well. With decreasing Bora velocity there is an increase in the power-law exponent and aerodynamic surface roughness length, and simultaneously a decrease in friction velocity. This indicates an urban-like velocity profile for smaller wind velocities and a rural-like velocity profile for larger wind velocities. Bora proved to be near-neutral thermally stratified. Turbulence intensity and lateral component of turbulence length scales agree well with ESDU 85020 for this particular terrain type. Longitudinal and vertical turbulence length scales, Reynolds shear stress and velocity power spectra differ considerably from ESDU 85020. This may have significant implications on calculations of Bora wind loads on structures. [ABSTRACT FROM AUTHOR]

Published

2017

6. Spatial characteristics of extreme bora events

Author

Grižić, Jelena, Večenaj, Željko, Kozmar, Hrvoje, and Grisogono, Branko

Subjects

Bora, field measurements, complex terrain, velocity power spectra, turbulence intensity

Abstract

Bora is a severe downslope wind that blows at the Eastern Adriatic Coast. Its main characteristics are average wind speed velocities smaller than 20m/s and strong gusts that exceed 60m/s. These gusts cause difficulties in traffic and everyday life, while they have a strong impact on engineering infrastructure as well. Over the last two decades, extensive 3D high-frequency measurements have been carried out at various locations along the Croatian Coast (Senj, Vratnik Pass, Pometeno brdo and Maslenica Bridge) to study bora wind characteristics. From all collected data on each location, extreme March bora events were extracted. Basic statistical properties of these bora events show differences in mean and maximal streamwise wind velocities and also mean power spectra and turbulence intensity for all three wind components. Mean and maximal streamwise component velocities are highest at Maslenica. At Senj, there are lower mean but higher maximal speeds. Mean values are similar for Vratnik and Dugopolje, while Dugopolje has higher maximal values then Vratnik. Power spectrum and turbulence intensity are higher for locations with lower elevation (Senj and Maslenica) indicating stronger turbulence as bora reaches the coastal line. Overall turbulence energy is the highest in Senj.

Published

2017

7. Despiking of Turbulent Flow Data in Gravel Bed Stream

Author

Ratul Das

Subjects

gravel-bed, Acoustic Doppler Velocimeter, spike removal, near-bed turbulence, Reynolds shear stress, velocity power spectra

Abstract

The present experimental study insights the decontamination of instantaneous velocity fluctuations captured by Acoustic Doppler Velocimeter (ADV) in gravel-bed streams to ascertain near-bed turbulence for low Reynolds number. The interference between incidental and reflected pulses produce spikes in the ADV data especially in the near-bed flow zone and therefore filtering the data are very essential. Nortek’s Vectrino four-receiver ADV probe was used to capture the instantaneous three-dimensional velocity fluctuations over a non-cohesive bed. A spike removal algorithm based on the acceleration threshold method was applied to note the bed roughness and its influence on velocity fluctuations and velocity power spectra in the carrier fluid. The velocity power spectra of despiked signals with a best combination of velocity threshold (VT) and acceleration threshold (AT) are proposed which ascertained velocity power spectra a satisfactory fit with the Kolmogorov “–5/3 scaling-law” in the inertial sub-range. Also, velocity distributions below the roughness crest level fairly follows a third-degree polynomial series., {"references":["Dey, S., and Das, R. \"Gravel-bed hydrodynamics: a double averaging approach.\" J. Hydraul. Eng., 2012, 138(8), 707-725.","Franca, M. J., Ferreira, R. M. L, and Lemmin, U. \"Parameterization of the logarithmic layer of double-averaged streamwise velocity profiles in gravel-bed river flows.\" Adv. Water Resour., 2008, 31, 915-925.","Goring, D. G., and Nikora, V. I. \"Despiking acoustic Doppler velocimeter data.\" J. Hydraul. Eng., 2002,128(1), 117-126.","Lacey, R. W. J., and Roy, A. G. \"Fine-scale characterization of the turbulent shear layer of an instream pebble cluster.\" J. Hydraul. Eng., 2008,134(7), 925-936.","Manes, C., Pokrajac, D., and McEwan, I. \"Double-averaged open-channel flows with small relative submergence.\" J. Hydraul. Eng., 2007, 133(8), 896-904.","Mignot, E., Barthelemy, E., and Hurther, D. \"Double-averaging analysis and local flow characterization of near-bed turbulence in gravel-bed channel flows.\" J. Fluid Mech., 2009, 618, 279-303.","Monin, A. S., and Yaglom, A. M. Statistical fluid mechanics, volume II: Mechanics of turbulence. Dover Publications, New York, USA.(2007.","Nezu, I., and Nakagawa, H. Turbulence in open-channel flows. Balkema, Rotterdam, Netherlands. 1993.","Nikora, V. I., Goring, D. G., and Biggs, B. J. F. \"Some observations of the effects of microorganisms growing on the bed of an open channel on the turbulence properties.\" J. Fluid Mech., 2002. 250, 317-341.\n[10]\tNikora, V., Goring, D., McEwan, I., and Griffiths, G. \"Spatially averaged open-channel flow over rough bed.\" J. Hydraul. Eng., 2001,127(2), 123-133. \n[11]\tNikora, V., and Rowiński, P. M. \"Rough-bed flows in geophysical, environmental and engineering systems: double averaging approach and its applications.\" Acta Geophysica, Special Issue, 2008, 56(3), 529-934. \n[12]\tPokrajac, D., Campbell, L. J., Nikora, V. L., McEwan, I. K., and Manes, C. \"Quadrant analysis of persistent spatial velocity perturbations over square-bar roughness.\" Exp. Fluids, 2007, 42(3), 413-423. \n[13]\tPope, S. B.. Turbulent flows. Cambridge University Press, U.K. 2001.\n[14]\tSarkar, S., and Dey, S. \"Double-averaging turbulence characteristics in flows over a gravel-bed.\" J. Hydraul. Res., 2010, 48(6), 801-809."]}

Published

2016