CNEXO experimental SandPit in Seine Estuary

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Introduction

Through the sixty’s, needs of sands and gravels quickly increased and several studies were carried out by Cnexo (former name of Ifremer Institute) on substitution materials to prevent problems of material supply. In order to study responses of exploitation of submarine materials, a full-scale experiment was launched in 1973 on a site located at the mouth of the Seine estuary. Morphodynamic behaviour of Cnexo pit was studied within SANDPIT European FP5 project.

Initial state of bathymetry

The Cnexo sandpit is 2.5 km long, 400 m wide and its direction is SW-NE. It was dug in a region where the depths vary between 16 m and 17.5 m with a slight slope toward the North. Figure 1 gives a good idea of the Cnexo pit location inside the Seine Estuary and also shows both the location of the Candhis wave buoy used to collect wave data and the location of two well-known and well-studied sediment deposits (Octeville deposit and Kannick deposit).

Figure 1: Cnexo pit location

A sediment study of the East part of the Seine bay was carried out in 1967 and showed that the Cnexo pit was dug in a region where the bottom material was made of fine quartz sands with a median diameter between 0.25 mm and 0.50 mm. These sands at the surface of the bottom contain from 20% to 30% of limestone but less than 2% of silt.

Before its dredging, the studied site was located on a vast homogeneous sandy zone under which we find old terraces of the Seine river which are mainly composed of coarser materials, more heterogeneous and containing less limestone. Manufacturers of materials were interested in these terraces and especially in their coarser parts.

The dredging of the Cnexo sandpit was carried out from 1974 to 1980 through 13 campaigns of materials extraction that removed more than 2.800.000 m3 of materials.

Figure 2: Cnexo dredging

The whole granted domain was not exploited at the same time. From 1974 to 1977, the only Northeast part of the domain was dredged on a length of 1500 m approximately. At the end of this first stage, this “old” dredging is 200 m wide and his depth varies between 3 and 5 m. From 1977 to 1980, the Southwest part of the domain was also dredged and this dredging was deeper and also thinner. At the end of the “new” dredging in 1980, the whole dredging is about 3 km long and between 130 m to 300 m wide (These dimensions are found using 18 m isobaths). Its bathymetry is deeper in its “new” Southwest part (between 5 and 13 m deep) than in its “old” Northeast part (between 3 and 6 m deep).

Figure 2 shows these different stages of Cnexo dredging from 1974 to 1980.

Bathymetric data

Figure 3: 1981 bathymetry with locations of different cross-sections

Three different bathymetries were collected for years 1981, 1996 and 2002. The two most recent bathymetries (1996 and 2002) were made by Le Havre Harbour that used exactly the same Global Positioning System for both studied years. Le Havre harbour considers that precision is around 1 meter for the planimetric coordinates and not more than 20 cm for the altimetric coordinate. 1981 bathymetric data are more hazardous and was found by digitalizing an old map. Even if the field measurements had been made correctly we should not expect better precision than 10-15 m for planimetric coordinates and 30 cm for altimetric coordinate.

Morphodynamic evolution of Cnexo Sandpit since 1981

Cross-sections analysis

Figure 4: Cross-section Slong in 1981, 1996 and 2002

A strong filling of the pit is measured in the southern part of Cnexo pit between 1981 and 1996 and continued between 1996 and 2002 but with a smaller range. See figure 4.


Differential bathymetric map

A differential bathymetric map is presented in figure 5. A clear filling of the pit between 1981 and 2002 is found while the two slopes of this pit are eroded which seems physically correct. The phenomenon is stronger in the southern part than in the northern part that was less dug.

Figure 5: Bathymetric differential map between 2002 and 1981

Volume analysis of the Cnexo pit

A volume analysis was carried out on a restricted domain around the pit. From 1981 to 1996 an accretion of about +615.000 m3 (41 000 m3 /year) was found and from 1996 to 2002 accretion was about +90.000 m3 (15 000 m3 /year).


Waves and currents data

Waves data

Figure 6: Simplified wave climate

Two wave databases were collected from two wave buoys located near the CNEXO site. These buoys belong to the CANDHIS French wave observation network. The first buoy is located near Antifer and gives omni directional wave data from July 1996 to December 2002 which leads to more than 14000 measurements of (Hp; Tp). This buoy is a little bit far from the Cnexo site and would require a wave propagation study to get the modified wave field above the studied pit. The second buoy gives omni directional wave data from January 1997 to February 2003 which leads to more than 29000 measurements of (Hp; Tp). This latter buoy is very close to the Cnexo pit (several kilometres far only) as it is shown on the location map (Figure 1) which means that no propagation model needs to be used to get the correct waves field above the Cnexo pit. Unfortunately wave directions are not given. Hindcast wave-data at this location have been extracted from the numerical wave data-base along the French coasts, under construction within a joint project between Météo-France, CETMEF and EDF LNHE. This extraction was made for the whole years 1999 and 2000 with a result every 3 hours, which leads to more than 5800 measurements of (Hp; Tp; Direction).



An analysis of these numerical measurements was made in order to study the main directions of waves. The four dominant angular domains centred around dominant directions are used for a simplified wave climate shown in Figure 6. The dominant direction is around 298°.


Waves modelling

Figure 7: Wave height behind CNEXO sandpit

Because of a large computation area, just wave periods larger than 6.5 s can be computed with REFONDE® model that solves mild slope equation by the Finite Element Methods. Mesh exceeds 800.000 finite elements. Figure 7 shows results of wave modelling results for wave class H4 (Hp=3.29 m; T=7.5s; direction=298°)and in particular the slightly changes of wave heights behind the pit.


Currents modelling

Figure 8: Current velocity for a medium tide


Tide data come from SOGREAH's hydrodynamic model for the Seine Estuary where the Cnexo pit lies. These results are given from April 1st 2002 to April 30th 2002. This period comprises 56 tides. Data for a medium tide is then extracted. Hydrodynamic velocity components (u,v) and water heights h are given at the 4 corners of a rectangular domain around the Cnexo pit. The rectangular domain is 10 km x 10 km centred on the Cnexo pit which is 3 km long. The maximum water height is 8.25 meters and the maximum current velocity is 0.77 m/s.

A short hydrodynamic modelling is run by CETMEF using the REFLUX® model that solves shallow water equations by the Finite Elements Method. The boundary conditions are the water levels. Velocity results are obtained inside the computation area and compared with SOGREAH’s data on the same point. Rough results without calibration are shown in Figure 8. These results are correct and should be improved with a little calibration. However as the current itself has a very poor influence on the sediment transport it was decided to take a homogeneous current field among the whole domain but just changing with time.


References

Lemoine M., Clabaut P., Simon S., Augris C., 1999, Étude de la souille expérimentale d’exploitation de granulats marins dite « souille CNEXO » en baie de Seine : évolution morpho-sédimentologique et faunistique entre 1981 et 1996, Rapport Ifremer.

Desprez M., 1996, Étude des sédiments superficiels et de la macrofaune benthique dans le secteur de l’ancienne fouille expérimentale du CNEXO. État en décembre 1995. Rapport GEMEL Picardie.

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