REAL TIME METOCEAN ASSISTANCE TO OFFSHORE OPERATIONS - PROVISION OF PRECISE SWELL FORECASTS CALIBRATED THROUGH WIND AND SEA-STATE SATELLITE MEASUREMENTS : COBO PLATFORM INSTALLATION CASE STUDY
REAL TIME METOCEAN ASSISTANCE TO OFFSHORE OPERATIONS - PROVISION OF PRECISE SWELL FORECASTS CALIBRATED THROUGH WIND AND SEA-STATE SATELLITE MEASUREMENTS : COBO PLATFORM INSTALLATION CASE STUDY
Primary Keywords: Forecast, Marine operation, Oil
Secondary Keywords: Sea-state, Wind, Waves
Marine operators, like ELF and TPG, need to be provided with
accurate swell forecasts in order to take operational decisions.
Elaborated in MétéoMer, this application make use of
technologies which have been developed since 1991 in the frame of ESA pilot
projects. This procedure use satellite wind and sea state as well as field
measurements and lead to a permanent control of the meteo analyses so that
forecast are 'a priori' reliable in a 0-24h interval or more.
Prior to offshore platform installation in environments subject to long
period swells (Guinea Gulf for example), sea operators need to be provided with
the most accurate swell forecasts giving precisely predicted parameters:
amplitude, period and direction respectively with 20cm, 1s and 5°
accuracies. These values, further inputs to codes of installation procedures
are calibrated through the use of satellite wind and sea state as well as of
field measurements.
Relying upon these procedures, operational decision-taking must be irrevocable,
be it for operation launching or postponing, thus requesting predicted events
of the utmost precision.
Some years ago, one realized that forecasts were accepted as valid 'a
posteriori' whereas operations managers have an 'a priori' need for 95%
reliable forecasts up to and beyond 24h. The altimeter, scatterometer and SAR
in wave mode satellite measurements now allow a different approach for swell
forecasting, in particular for the Guinea Gulf.
Calculation results issued from MétéoMer ISFS model (Integrated
Swell Forecasting System) are combined both with field and satellite
measurements for a continuous validation at several steps :
These different calibrations lead to a permanent control of the meteo analyses and exactness of our ISFS calculations so that forecasts are 'a priori' reliable in a 0-24h interval or more.
This technology is undertaken in MétéoMer by two marine
meteorologists, while one operator implements swell, current and tide
measurement equipments linked to an Inmarsat communication system (Standard C)
for data exchanges between the area and our office.
Satellite information is also available at MétéoMer through a
direct link with ESRIN-Frascati for reception of LBR measurements in a 2-4
hours delay. Data are processed on a Sun station as well as meteo analyses and
amendements and ISFS calculations.
Moreover, Meteosat pictures are also permanently received.
Final synthesis are continuously available and meteo reports are sent every 12
hours.
Installation of platforms, as the use of very draught barges, on areas where
swell have a determining impact on the feasibility of that kind of offshore
operations, suppose a very specific ocean forecast assistance.
For the good achievements of these in-depht operations, operators require
sea-state guaranteeing the highest accuracy (20cm, 1 second and 5°). The
predicted events should be accurate enough to take decisions without any
possible return.
These weather forecast are achieved by a set of method incuding :
These different comparisons enable to check the accuracy of meteorological
analyses and correctness of our calculations and offer an a priori guarantee of
the forecasts on a 24 hours period and more.
MeteoMer supply forecast reports of wind and sea-state including wind-sea and swell (Hs with the associated periods and directions).
With this assistance, ELF and TPG benefited from metocean reliable
information in operational conditions.
In case of platform installation, such procedures offer an increased guarantee
on the metocean conditions and allow the coordination of companies actions for
irrevocable operational decisions.
Cost for this service is around 450 Ecu per day, including data cost. On site, cost for MétéoMer operator implementing the measurement equipment is 400 Ecu per day whereas daily cost for the equipment is 600 Ecu. ( operations for platform installation range from 7 to 23 Mecu per day).
| Customer1 | Customer2 | |
| Name: | Mr. Chasseguet | Mr. Thomas |
| Company: | ELF Angola | TPG |
| Address: | Tour ELF La Defense 92078 Paris cedex 45 France |
Kupka C, 14 rue Hoche 92902 Paris la Defense France |
| Name: Mr Lasnier |
| Company: MeteoMer |
| Address: Quartier les Barestes - RN7 - 83480 Puget sur Argens - France |
| Tel: +33 (0)4 94 45 66 11 |
| Fax: +33 (0)4 94 45 68 23 |
| E-mail: 4meteomer@meteomer.fr |
| Web: www.meteomer.fr www.meteomer.com |
| Name: Mr Lasnier |
| Company: MeteoMer |
| Address: Quartier les Barestes - RN7 - 83480 Puget sur Argens - France |
| Tel: +33 (0)4 94 45 66 11 |
| Fax: +33 (0)4 94 45 68 23 |
| E-mail: 4meteomer@meteomer.fr |
| Web: www.meteomer.fr www.meteomer.com |