In practise many cases are aggregated in order to evaluate the forecast behaviour of the ensemble. However, it is always useful to complement such assessments with case studies of extreme events, like the one in this exercise, to get a more complete picture of IFS performance and identify weaker aspects that need further exploration.

The case study will look at one of several severe wind-storms that hit Europe in late 2013 (see handout of ECMWF article by Hewson et al, ECMWF Newsletter 139).

• On the 28th October 2013 a small, severe wind-storm named St Jude in the UK, hit the UK & north-western Europe.
• A total of 19 people were killed across Europe, 5 in the UK.
• The return period of the event based on wind-gust observations show the 10yr return period was exceeded along the North Sea coast.

• From the 23rd October, the ECMWF forecast predicted a greater than 70% probability of a severe wind event (greater than 60kt, 31m/s, at 1km) over southern England. A signal for the storm was evident from the 21st October.
• On the 24th October, the UK MetOffice issued an amber alert for wind-speed across southern England placing the potential impact in the highest category.
  
  
• The cyclone first appeared as a cold front wave, south of Nova Scotia late on 25th October.
• It deepened and moved rapidly east then northeast, with the storm centre reaching southern Sweden late afternoon on the 28th.
• The most rapid deepening occurred between 06-12UTC on the 28th between eastern England and the North Sea where the strongest wind gusts were observed.

 We suggest these exercises are best done by small groups working in teams.

Suggestions are made in the exercises for how each team can work on different data.

metview

Please enter the folder 'OpenIFS workshop 2015' to begin working.

1. Examine windgust observations. Note the observed area of strongest windgusts and their intensity.
2. Understand the storm development from the ECMWF analyses.

For this task, use the metview icons in the row labelled 'Analysis'

 1. Right-click on the icon labelled 'wgust_obs.mv' and select 'Visualise' (or Control-I on the keyboard)

Icon 'an_1x1.mv' produces a single plot on the page.

Icon 'an_2x2.mv' can produce up to 4 plots per page.

The ECMWF operational forecast is called HIRES. The model runs at a spectral resolution of T1279, equivalent to 16km grid spacing.

Only a single forecast is run at this resolution as the computational resources required are demanding. The ensemble forecasts are run at a lower resolution.

Before looking at the ensemble forecasts, first understand the performance of the HIRES forecast.

Data is provided for multiple forecasts starting form different dates, known as different lead times.

Available lead times for October 2013 are: 24th, 25th, 26th and 27th.

1. How does HIRES forecast compare to analysis and observations?
2. Was it a good or bad forecast? Why?
3. How does the forecast change with the different lead times?

 For this task, use the metview icons in the row labelled 'Oper forecast'

oper_2x2.mv  works in a similar way to the an_2x2.mv icon used in the previous task.

Key questions:

1. Visualise the ensemble mean - how does it compare to the HIRES forecast and analysis?
2. Visualize stamp map - are there any members that provide a better forecast?
3. Visualize spaghetti map - see how members spread over the duration of the forecast. How does the spread grow?

Group A: The Swedish weather centre is interested in giving out useful weather warnings. They want to know the maximum precipitation and wind gusts over Scandinavia and their likelihood (more than XX m/s wind and XX mm precipitation). Would you give out weather warnings and if yes for which days and areas (1 day lead time)?

Group B: The organiser of a garden party at Windsor Castle at a particular date needs to prepare for weather. The Queen will join the party and she is not amused if there are too many tents that are not necessary. However, it will take some time to prepare shelters for rain and wind or to cancel the event (two days lead time). Would you prepare for rain?

Group C: The operator of a wind farm in the northern see needs to know the highest possible wind speeds to shut down turbines (at XX m/s). If the turbines are shut down too early, power production will be reduced. If they are shut down too late, they will break (6 hours lead time). Would you shut down the wind farm?

• MSLP
• 10m winds
• T2m
• Z500, Z200 winds geopotential.
• wind gust : model & obs (nb. model wind gust data is accumulated)(Linus has windgust obs in geopoint format)
• PV (decide which levels)
  
  
• layout
• contour / colourfill (overlay)
• wind vector
• spaghetti plots
• stamp maps
• rmse & cdf at several locations (user chooses)(Linus has macros for these)

• Difference maps : to plot fc - an and ens member - control ( or ens member(i) - ensemble member(j) )
• step animation of spaghetti plots etc to see spread developing.

• Linus' vortex centre & tracking plot

Retrieve data from MARS for all apart from the OpenIFS experiment the participants will run themselves.

Note that operational ensemble runs at T319 are also available if we want to use them to compare 40r1 with OpenIFS? (see Linux for MARS script)

wind gust data is not simply max windspeed over 6hr period, it includes convective component (as well as conversion from windspeed to gust speed).

need to fake windgust data!

In exercise 1, the aim is to study the error between the forecast and the analysis.

Key points:

The forecast developed the storm too early, even for the forecast on the 27th. Storm was too far west.

plot Z200 to see position of the jetstream.

For the ensemble, plotting the mean will remove some features - might be useful for class to see this.

Note how spread is small for northerly low centre where uncertainty is much less.

Make sure they use 4 frame layout and plot 25th, 26th, 27th + analysis. Also, 25th, 26th & their difference

Question. How best to organise the experiments?  Each user has an account or use one account with multiple directories?

Linus suggested running a script that reorders the data to have 1 file with all ensemble members for each field of interest. Do this after all members have run?

Suggests doing 2 more runs: EDA only and SV only. The perturbations from these have different characteristics and as we don't yet know what the results look like it might be useful to have these runs.

(I may not have all the details right - check with Linus who apparently did a PhD thesis on this)

Relate the perturbations to the baroclinic zones (ie. large scale flow). While the cyclone is developing the baroclinicity will be high and the EDA/SV perturbations will be more significant than when the storm is more developed with fronts when it will be more stable.

Should see that SV are quite artificial, some pertubations will grow rapidly and then die out.  By contrast the perturbations in the EDA will be larger in the initial conditions.

Maybe we should plot the Eady index?

Erland says very important to plot these and see what we get in order to refine the questions and direction we want participants to take.

Linus explained that with the OpenIFS runs will have differing amounts of uncertainty, so the spread should noticeably change for points near the track in the analysis. This is particularly because of (a) timing error between the analysis & fc, (b) the ensemble tracks being more to the north of the analysis track. So Amsterdam for instance should see much less spread as the uncertainty in the ensemble is reduced.

Parameters that do not have a Gaussian like distribution in the ensemble can be problematic.