ocean wave forecasting - eumetrainocean wave forecasting slide 13 wave model configurations global...
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Slide 1
Ocean Wave Forecasting
Jean-Raymond Bidlot*
Marine Prediction Section
Predictability Division of the Research Department
European Centre for Medium-range Weather Forecasts (E.C.M.W.F.)
Reading, UK
* With contributions from my colleagues in the
JCOMM/ Expert Team in Waves and Coastal Hazards
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Slide 2
Ocean waves:
We are dealing with wind generated waves at the surface of the oceans,
from gentle to rough …
Ocean wave Forecasting
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Slide 3 Ocean wave Forecasting
Ocean Waves
1.0 10.0 0.03 3x10-3 2x10-5 1x10-5
Frequency (Hz)
Forcing:
wind earthquake
moon/sun
Restoring:
gravity
surface tension Coriolis force
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Slide 4 Ocean wave Forecasting
What we are dealing with?
Wave Period, T
Wave Length,
Wave Height, H
Water surface
elevation,
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Slide 5 Ocean wave Forecasting
A Wave Record
Individual Waves,
Significant Wave Height, Hs,
Maximum Individual Wave Height, Hmax
Hmax Hs= H1/3
Individual waves
… etc.
Surface elevation time series from platform Draupner in the North Sea
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Slide 6 Ocean wave Forecasting
Wave Spectrum
The irregular water surface can be decomposed into
(infinite) number of simple sinusoidal components
with different frequencies (f) and propagation
directions ( ) and amplitudes.
The distribution of
wave energy among
those components
is called:
“wave spectrum”,
F(f,).
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Slide 7 Ocean wave Forecasting
Oc
ea
n W
ave
M
ode
llin
g
Modern ocean wave prediction systems are based on statistical
description of oceans waves (i.e. ensemble average of individual
waves).
The sea state is described by the two-dimensional variance
spectrum F(f,) of the surface elevation.
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Slide 8 Ocean wave Forecasting
Once the spectrum is known, information about the sea state can be derived.
For example, the mean variance of the sea surface elevation due to waves is given by:
The statistical measure for wave height, called the significant wave height (Hs):
The term significant wave height is historical as this value appeared to be well correlated with visual estimates of wave height from experienced observers. It can be shown to correspond to the average 1/3rd highest waves (H1/3).
Ocean Wave Modelling
dfdfF ),(2
2
4H s
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Slide 9 Ocean wave Forecasting
Ocean Wave Modelling
The 2-D spectrum follows from the energy balance equation
(in its simplest form: deep water case):
Where the group velocity Vg is derived from the dispersion
relationship which relates angular frequency and wave number:
dissnling SSSFVt
F
Sin: wind input source term (generation).
Snl: non-linear 4-wave interaction (redistribution).
Sdiss: dissipation term due to whitecapping (dissipation).
kg2
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Slide 10 Ocean wave Forecasting
Wind input in pictures
Linear growth
exponential growth Figures from “Waves in Oceanic and Coastal Waters” by
Leo Holthuijsen. Cambridge University Press
But once waves are present,
they distort the air flow above:
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Slide 11 Ocean wave Forecasting
Non-linear inter-action in pictures
3-waves interaction (triad)
not possible in deep water
4-waves interaction (quadruplet)
possible in deep water
Figures from “Waves in Oceanic and Coastal Waters” by
Leo Holthuijsen. Cambridge University Press
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Slide 12 Ocean wave Forecasting
whitecapping dissipation
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Slide 13 Ocean wave Forecasting
Wave Model Configurations
Global from 81°S to 90°N,
including all inland seas.
Coupled to the atmospheric model
(IFS) with feedback of the sea
surface roughness change due to
waves.
The interface between WAM and
the IFS has been generalised to
include air density and gustiness
effects on wave growth and
neutral winds.
Data assimilation Jason-2
altimeter wave heights.
ECMWF Global models
Forecast wave height on 15/03/2006 12UTC.
70°S70°S
60°S 60°S
50°S50°S
40°S 40°S
30°S30°S
20°S 20°S
10°S10°S
0° 0°
10°N10°N
20°N 20°N
30°N30°N
40°N 40°N
50°N50°N
60°N 60°N
70°N70°N
20°E
20°E 40°E
40°E 60°E
60°E 80°E
80°E 100°E
100°E 120°E
120°E 140°E
140°E 160°E
160°E 180°
180° 160°W
160°W 140°W
140°W 120°W
120°W 100°W
100°W 80°W
80°W 60°W
60°W 40°W
40°W 20°W
20°W
Tuesday 14 March 2006 00UTC ECMWF Forecast t+36 VT: Wednesday 15 March 2006 12UTC Surface: significant wave height
0
0.75
1.5
2.25
3
3.75
4.5
5.25
6
6.75
7.5
8.25
9
9.75
10.29
Atm
os
ph
eri
c
mo
de
l
Wa
ve
mo
de
l
neutral wind
wind gustiness
air density
roughness
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Slide 14 Ocean wave Forecasting
ECMWF Wave Model Configurations
Probabilistic forecasts
(EPS)
55 km grid spacing.
30 25 frequencies *.
24 12 directions *.
Coupled to TL639 TL319 model *.
(50+1) (10+5) day forecasts from 0
and 12Z (monthly once a week).
Deterministic model
28 km grid spacing.
36 frequencies.
36 directions.
Coupled to the TL1279 model.
Analysis every 6 hrs and 10 day
forecasts from 0 and 12Z.
* Change in resolutions after 10 days
NB: also in seasonal forecast at lower resolutions
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Slide 15 Ocean wave Forecasting
Wave Model Products
The complete description of the sea state is given by the 2-D spectrum, however, it is a fairly large amount of data (e.g. 1296 values at each grid point in the global model (36x36).
It is therefore reduced to integrated quantities:
1-D spectrum obtained by
integrating the 2-D spectrum
over all directions and/or over
a frequency range.
Wave model
2-D spectrum
1-D spectrum
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Slide 16 Ocean wave Forecasting
Wave Model Products
When simple numbers are required, the following parameters are available:
The significant wave height
(Hs).
The peak period (period of
the peak of the 1-D
spectrum).
Mean period(s) obtained
from weighted integration
of the 2-D spectrum.
Integrated mean direction.
Few others.
Complete list at: http://www.ecmwf.int/services/archive/d/parameters/order=/table=140/
f E
( f
) peak
area under spectrum = <2>
< f >
(mean frequency)
fp
(peak frequency)
T = 1 / f
24H s
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Slide 17 Ocean wave Forecasting
Wave Model Products
Plot of 2-D spectrum can become very busy !
windsea
swell
total sea
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Slide 18 Ocean wave Forecasting
Wave Model Products
Except if you only look at one location …
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Slide 19 Ocean wave Forecasting
Wave Model Products
Use simple parameters:
total wave height and mean propagation direction
Wave height and mean direction:
Analysis : 14 February 2009, 00 UTC
10m winds and mean sea level pressure:
Analysis : 14 February 2009, 00 UTC
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Slide 20 Ocean wave Forecasting
Wave height and mean direction:
Analysis : 14 February 2009, 00 UTC
Wave Model Products
PEAK PERIOD:
Analysis : 14 February 2009, 00 UTC
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Slide 21 Ocean wave Forecasting
Wave Model Products
Situation might be more complicated !
Wave height and mean direction:
Analysis : 15 February 2009, 00 UTC
10m winds and mean sea level pressure:
Analysis : 15 February 2009, 00 UTC
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Slide 22 Ocean wave Forecasting
Wave Model Products
Situation might be more complicated:
Wave height and mean direction:
Analysis : 15 February 2009, 00 UTC
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Slide 23 Ocean wave Forecasting
Wave Model Products
A scheme is used to split the global wave fields into waves which are
under the direct influence of the forcing wind, the so-called windsea or
wind waves, and those waves that are no longer bound to the forcing
wind, generally referred to as swell. Period and mean direction are also
determined for these split fields.
Wave height and swell mean direction:
Analysis : 15 February 2009, 00 UTC
Wave height and windsea mean direction:
Analysis : 15 February 2009, 00 UTC
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Slide 24 Ocean wave Forecasting
Wave Model Products
Windsea and swell: opposing sea
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Slide 25 Ocean wave Forecasting
Wave Model Products
Windsea and swell: cross sea
swell
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Slide 26 Ocean wave Forecasting
Wave Model Products
yet it has been introduced at JMA to indicate cross sea areas !
Predicted wave spectrum field (upper) and an image wave map in which
crossing area is marked. (Source: JMA)
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Slide 27 Ocean wave Forecasting
Wave model deterministic products on the web*
Significant wave height and mean direction
Wave products available by default on the centre‟s web pages:
(Home -> Products -> Forecasts -> Ocean Wave Forecasts :
http://www.ecmwf.int/products/forecasts/wavecharts/index.html#forecasts
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Slide 28 Ocean wave Forecasting
Wave model deterministic products on the web
Also windsea and swell plots:
Windsea wave height and direction
Windsea Mean period and direction
Swell wave height and direction
Swell Mean period and direction
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Slide 29
New decomposition:
spectral partitioning
Ocean wave Forecasting
windsea
Swell 1
Swell 2
Swell
windsea total
Operational:
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Slide 30
Can we derive more information from the wave spectra?
Significant wave height and low frequency wave energy propagation,
as derived by integrating the 2d spectra over directions and frequency bands
(shown here in terms of equivalent wave height)
Hs 25-29s 21-29s
17-21s 14-17s 12-14s
11 May, 2007,
12 UTC
Ocean wave Forecasting
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Slide 31
Large swell reaching la Réunion:
Can we derive more information from the wave spectra?
Significant wave height and low frequency wave energy propagation,
as derived by integrating the 2d spectra over directions and frequency bands
(shown here in terms of equivalent wave height)
Hs 25-29s 21-29s
17-21s 14-17s 12-14s
11 May, 2007,
18 UTC
Ocean wave Forecasting
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Slide 32
Large swell reaching la Réunion:
Can we derive more information from the wave spectra?
Significant wave height and low frequency wave energy propagation,
as derived by integrating the 2d spectra over directions and frequency bands
(shown here in terms of equivalent wave height)
Hs 25-29s 21-29s
17-21s 14-17s 12-14s
12 May, 2007,
0 UTC
Ocean wave Forecasting
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Slide 33
Large swell reaching la Réunion:
Can we derive more information from the wave spectra?
Significant wave height and low frequency wave energy propagation,
as derived by integrating the 2d spectra over directions and frequency bands
(shown here in terms of equivalent wave height)
Hs 25-29s 21-29s
17-21s 14-17s 12-14s
12 May, 2007,
6 UTC
Ocean wave Forecasting
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Slide 34
spectral partitioning
Ocean wave Forecasting
Transformation of topographically partitioned North Pacific
significant wave height data (left) into systems (right) by NCEP‟s
swell tracking routine. (Source: NCEP).
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Slide 35 Ocean wave Forecasting
Ensemble forecasting:
Click here if you know
what ensemble
forecasting means:
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Slide 36
0 1 2 3 4 5 6 7 8 9 10
Forecast day
2
4
6
8
10
12
14
Significant wave height (m) at Heidrun
8 m
Ocean wave Forecasting
So far, everything has been presented as output from the
deterministic forecast system. BUT, forecast should actually be
more probabilistic. Nowadays, weather centres rely on ensemble
techniques :
From an ensemble of wave
forecasts it is possible to derive
probabilities for certain wave
conditions.
ECMWF Newsletter 95 – Autumn 2002 Significant wave height above 8 m
06 Nov. 2001 12 UTC ECMWF EPS probability forecast t+120
DRAUGEN
HEIDRUNMIKE
55°N
60°N
65°N
25°W
25°W
20°W
20°W
15°W
15°W
10°W
10°W
5°W
5°W
0°
0°
5°E
5°E
10°E
10°E 15°E
15°E
20°E
20°E
25°E
25°E
Surface: significant wave height probability >8
Tuesday 6 November 2001 12UTC ECMWF EPS Probability Forecast t+120 VT: Sunday 11 November 2001 12UTC
0
5
10
15
20
25
30
35
40
45
50
54.47
50%
25%
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Slide 37 Ocean wave Forecasting
probability for set thresholds (4m)
Basic EPS Wave Model Products
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Slide 38 Ocean wave Forecasting
probability for set thresholds (6m)
Basic EPS Wave Model Products
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Slide 39 Ocean wave Forecasting
probability for set thresholds (8m)
Basic EPS Wave Model Products
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Slide 40
A bit more compact: Wave EPSgram:
South of Grindavik, Iceland
Each octant is coloured based on the distribution of
the significant wave height associated with each
mean direction. The coloured areas correspond to
the fractional number of ensemble members with
wave height in the range specified by the coloured ruler.
Like normal EPSgram but for wind direction, wind speed,
significant wave height, mean wave direction and
mean period.
Ocean wave Forecasting
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Slide 41
Since June 2012 : new set of EFI plots
Ocean wave Forecasting
From the new model climate, it is possible to derive indices that
indicate deviations in probabilistic terms from what is „expected‟.
Extreme Forecast Index (EFI): 1 means that all EPS are above climate.
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Slide 42
Since June 2012 : new set of EFI plots
Ocean wave Forecasting
From the new model climate, it is possible to derive indices that
indicate deviations in probabilistic terms from what is „expected‟.
Extreme Forecast Index (EFI): -1 means that all EPS are below climate.
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Slide 43 The Wave Model (ECWAM)
We are not always dealing with nice
‘predictable’ waves:
Click here if you have
ever experienced such
a freak wave:
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Slide 44 Ocean wave Forecasting
Individual Waves,
Significant Wave Height, Hs,
Maximum Individual Wave Height, Hmax, and
Freak Wave
Hmax Hs= H1/3
Individual waves
… etc.
If Hmax > 2.2 Hs freak wave event
![Page 45: Ocean Wave Forecasting - EumetrainOcean wave Forecasting Slide 13 Wave Model Configurations Global from 81 S to 90 N, including all inland seas. Coupled to the atmospheric model (IFS)](https://reader035.vdocument.in/reader035/viewer/2022081400/609590dc1a242b46d63594d8/html5/thumbnails/45.jpg)
Slide 45 Ocean wave Forecasting
Wave Model Products: Extreme Waves
We have recently introduced a new parameter to estimate the height of the
highest individual wave (Hmax) one can expect:
March 10th, 2008, 12UTC
Forecasts fields from
Friday 7th March, 2008, 0 UTC
40°N 40°N
50°N50°N
60°N 60°N
20°W
20°W 0°
0°
Friday 7 March 2008 00UTC ECMWF Forecast t+84 VT: Monday 10 March 2008 12UTC Surface: (Exp: 0001 )
0
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
34.79
40°N 40°N
50°N50°N
60°N 60°N
20°W
20°W 0°
0°
Friday 7 March 2008 00UTC ECMWF Forecast t+84 VT: Monday 10 March 2008 12UTC Surface: Significant wave height (Exp: 0001 )
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
17.44
Hs Expected Hmax
in 3 hour records
See ECMWF Tech Memo 288 for derivation and discussion
http://www.ecmwf.int/publications/library/do/references/list/14
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Slide 46
Questions/comments ?