23

Work continued in 2014 to optimise 220kV

AC three-core cables. A prototype with

1600mm² aluminium conductors was made,

to achieve IEC prequalification for the Arco

Felice and Pikkala plants, and a prototype

with 1200mm² copper conductors, for

qualification testing as part of the ‘50 Hertz’

project, one of the largest ever performed in

terms of volume and value in the submarine

cable production.

In the EHV underground cables, development

was completed in 2014 of the prototype

400kV cable with a Milliken 3500mm² copper

conductor, the largest ever developed by the

Group. In addition, the Gron plant in France

produced prototype Milliken aluminium

conductors measuring 4000mm², while the

Delft plant in the Netherlands produced

similar prototypes, which will be used for the

380kV Randstaadt connection.

In the P-Laser technology, the 150 kV class

passed its qualification test, conducted on

a system complete with accessories and

completed with a series of additional high-

temperature. Qualification testing also

started for a P-Laser HVDC 320kV cable and

related accessories. The P-Laser system is

particularly suitable for high voltage direct

current (HVDC) applications because of the

greater chemical stability.

In the optical cables field, a record density

product containing 4.2 fibres per mm² in

a 1728 fibre 23mm diameter cable, made

using fibres measuring 200 micrometres in

diameter, was added to the

Flextube®

family

of cables. The products are an excellent

solution for use in conduits congested with

other cables. Dry/dry technology was also

developed for

Flextube®

cables in order to

reduce cable installation time.

Submarine record performance Extra High Voltage progress

Test passed for P-Laser technology Flextube family enlarged

State-of-the-art technologies