Environmental Engineering Reference
In-Depth Information
Although there are many valid reservations about the
use of CFD it is a technique that is established as a
scientific tool and whose use will become more and more
commonplace.
Beven, K. and Binley, A. (1992) The future of distributed mod-
els: model calibration and uncertainty prediction.
Hydrological
Processes
,
6
, 279-98.
Borsboom, M., Groeneweg, J., Doorn, N. and van. Gent, M.R.A.
(2001)
Near-shore Wave Simulations with a Boussinesq-type
Model including Wave Breaking
. Proceedings of the Coastal
Dynamics Conference, 2001, Lund, Sweden.
Bradbrook, K.F., Lane, S.N., Richards, K.S.
et al
. (2000) Large
eddy simulation of periodic flow characteristics at river channel
confluences.
Journal of Hydraulic Research
,
38
(3), 207-15.
Braun, A.L. and Awruch, A.M. (2009) Aerodynamic and aeroe-
lastic analyses on the caarc standard tall building model
using numerical simulation.
Computers and Structures
,
87
,
564-81.
Casey, M. and Wintergerste, T. (2000) Best practice guidelines.
ERCOFTAC Special Interest Group on Quality and Trust in CFD
,
ERCOFTAC Special Interest Group on Quality and Trust in
CFD. Version 1.0.
Castro, I. and Graham, M. (1999) Numerical wind
engineering - the way ahead ?
Proceedings of the ICE - Structures
and Buildings
,
134
(3), 275-77.
Casulli, V. and Stelling, G.S. (1998) Numerical simulation of 3d
quasi-hydrostatic free-surface flows.
ASCE Journal of Hydraulic
Engineering
,
124
(7), 678-86.
Clifford, N.J., Wright, N.G., Harvey, G.
et al
. (2010) Numerical
modeling of river flow for ecohydraulic applications: Some
experiences with velocity characterization in field and simulated
data.
Journal of Hydraulic Engineering
,
136
(12), 1033-41.
Cowan, I.R., Castro, I.P. and Robins, A.G. (1997) Numerical
considerations for simulations of flow and dispersion around
buildings.
Journal of Wind Engineering and Industrial Aerody-
namics
,
67-68
: 535-45.
Crossley, A. (1999) Accurate and Efficient Numerical Solutions for
the Saint Venant Equations of Open Channel Flow, PhD thesis,
University of Nottingham.
Cunge, J.A., Holly Jr, F.M. and Verwey, A. (1980)
Practical Aspects
of Computational River Hydraulics
, Pitman, London.
Dean, R. and Dalrymple, R. (1991)
Water Wave Mechanics for
Engineers and Scientists
. World Scientific, Singapore.
Demuren, A. andRodi,W. (1986)Calculationof flowandpollutant
dispersion in meandering channels.
Journal of Fluid Mechanics
,
172
(1), 63-92.
DHI (1998)
Mike21c: User Guide and Scientific Documentation
,
Danish Hydraulic Institute, Hørsholm.
Dhondia, J.F. and Stelling, G.S. (2002)
Application of One
Dimensional - Two Dimensional Integrated Hydraulic Model
for Flood Simulation and Damage Assessment, Hydroinformatics
2002
, IWA Publishing, Cardiff.
Falconer, R. (1980)Numericalmodelling of tidal circulation inhar-
bours.
Proceedings of the Institution of Civil Engineers, Waterway,
Port and Coastal Division
,
106
,32-3.
Falconer, R. and Chen, Y.P. (1991) An improved representation of
flooding and drying and wind stress effects in a 2-dimensional
tidal numerical-model.
Proceedings of the Institution of Civil
Engineers Part 2 - Research and Theory
,
91
, 659-78.
Falconer, R. and Lin, B. (1997) Three-dimensional modelling of
water quality in the Humber Estuary.
Water Research
,
31
(5),
1092-102.
References
Abbott, M.B. (1979)
Computational Hydraulics: Elements of the
Theory of Free Surface Flows
, Pitman, London.
Abbott, M.B. and Basco, D.R. (1989)
Computational Fluid
Dynamics - An Introduction for Engineers
, Longman Scientific,
Singapore.
AIAA (1998)
Guide for the Verification and Validation of Compu-
tational Fluid Dynamics Simulations
, AIAA, Reston VA.
Alcrudo, F. and Garcia-Navarro, P. (1993) A high-resolution
godunov-type scheme in finite volumes for the 2d shallow-
water equations.
International Journal For Numerical Methods
in Fluids
,
16
(6), 489-505.
Anastasiou, K. and Chan, C.T. (1997) Solution of the 2d shallow
water equations using the finite volumemethod on unstructured
triangular meshes.
International Journal for Numerical Methods
in Fluids
24
: 1225-1245.
ASME (1993) Statement on the control of numerical accuracy.
Journal of Fluids Engineering
,
115
(3): 339-40.
Baker, C.J. (2007) Wind engineering - past, present and future.
Journal of Wind Engineering and Industrial Aerodynamics
,
95
,
843-70.
Bates, P., Anderson, M.G., Price, D.A.
et al
. (1996)
Analysis and
Development of Hydraulic Models for Floodplain Flows in Flood-
plain Processes
(eds M. Anderson, D. Walling and P. Bates), John
Wiley & Sons, Ltd, Chichester.
Bates, P. and de Roo, A.P.J. (2000) A simple raster-basedmodel for
floodplain inundation.
Journal of Hydrology
,
236
(1-2), 54-77.
Bates, P., Horritt, M.S. and Fewtrell, T.J. (2010) A simple inertial
formulation of the shallow water equations for efficient two-
dimensional flood inundation modelling.
Journal of Hydrology
,
387
, 33-45.
Bates, P., Wilson, C. Hervouet, J.M. and Stewart, M. (1999) Mod-
elisation a deux dimensions par elements finis d'un ecoulement
en plaine.
La Houille Blanche
,
3/4
,61-7.
Begnudelli, L. and Sanders, B.F. (2006) Unstructured grid
finite-volume algorithm for shallow-water flow and scalar
transport with wetting and drying.
Journal of Hydraulic
Engineering - ASCE
,
132
(4), 371-84.
Begnudelli, L. and Sanders, B.F. (2007) Conservative wetting and
dryingmethodology for quadrilateral gridfinite-volumemodels.
Journal of Hydraulic Engineering - ASCE
,
133
(3), 312-22.
Belcher, S. (1990)
Turbulent Boundary Layer Flow over Undulating
Surfaces
, University of Cambridge, Cambridge.
Belcher, S. and Hunt, J.C.R. (1998) Turbulent flow over hills and
waves.
Annual Review of Fluid Mechanics
,
30
, 507-38.
Beven, K. (2002) Towards a coherent philosophy for modelling
the environment.
Proceedings of the Royal Society of London A
,
458
, 2465-84.
Beven, K. (2006) A manifesto for the equifinality thesis.
Journal of
Hydrology
,
320
(1-2), 18-36.
Search WWH ::
Custom Search