Quadrant/octant sequencing and the role of coherent structures in bed load sediment entrainment
Details
Serval ID
serval:BIB_82B2DEA868C7
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
Quadrant/octant sequencing and the role of coherent structures in bed load sediment entrainment
Journal
Journal of Geophysical Research-Earth Surface
ISSN
2169-9003
ISSN-L
2169-9011
Publication state
Published
Issued date
2014
Peer-reviewed
Oui
Volume
119
Pages
264-286
Language
english
Notes
ISI:000333032300011
Abstract
To permit the tracking of turbulent flow structures in an Eulerian frame
from single-point measurements, we make use of a generalization of
conventional two-dimensional quadrant analysis to three-dimensional
octants. We characterize flow structures using the sequences of these
octants and show how significance may be attached to particular
sequences using statistical mull models. We analyze an example
experiment and show how a particular dominant flow structure can be
identified from the conditional probability of octant sequences. The
frequency of this structure corresponds to the dominant peak in the
velocity spectra and exerts a high proportion of the total shear stress.
We link this structure explicitly to the propensity for sediment
entrainment and show that greater insight into sediment entrainment can
be obtained by disaggregating those octants that occur within the
identified macroturbulence structure from those that do not. Hence, this
work goes beyond critiques of Reynolds stress approaches to bed load
entrainment that highlight the importance of outward interactions, to
identifying and prioritizing the quadrants/octants that define
particular flow structures.
Key Points
<list list-type=''bulleted'' id=''jgrf20196-list-0001''>
<list-item id=''jgrf20196-li-0001''>A new method for analysing
single point velocity data is presented <list-item
id=''jgrf20196-li-0002''>Flow structures are identified by a
sequence of flow states (termed octants) <list-item
id=''jgrf20196-li-0003''>The identified structure exerts high
stresses and causes bed-load entrainment
from single-point measurements, we make use of a generalization of
conventional two-dimensional quadrant analysis to three-dimensional
octants. We characterize flow structures using the sequences of these
octants and show how significance may be attached to particular
sequences using statistical mull models. We analyze an example
experiment and show how a particular dominant flow structure can be
identified from the conditional probability of octant sequences. The
frequency of this structure corresponds to the dominant peak in the
velocity spectra and exerts a high proportion of the total shear stress.
We link this structure explicitly to the propensity for sediment
entrainment and show that greater insight into sediment entrainment can
be obtained by disaggregating those octants that occur within the
identified macroturbulence structure from those that do not. Hence, this
work goes beyond critiques of Reynolds stress approaches to bed load
entrainment that highlight the importance of outward interactions, to
identifying and prioritizing the quadrants/octants that define
particular flow structures.
Key Points
<list list-type=''bulleted'' id=''jgrf20196-list-0001''>
<list-item id=''jgrf20196-li-0001''>A new method for analysing
single point velocity data is presented <list-item
id=''jgrf20196-li-0002''>Flow structures are identified by a
sequence of flow states (termed octants) <list-item
id=''jgrf20196-li-0003''>The identified structure exerts high
stresses and causes bed-load entrainment
Publisher's website
Create date
16/06/2014 15:21
Last modification date
20/08/2019 14:42