225 kV interconnection between Mali and Ivory Coast : done !

A bit of history

Segou switchgearOn November 11, 2012, the high voltage power systems of Mali and Ivory Coast were connected for the first time. The new 225 kV overhead lines connection between Ferkéssédougou in the North of Ivory Coast and Ségou in Mali, via Sikasso and Koutiala, was put in operation. Not only the two countries are now interconnected in a single power system, but also Senegal, Mauritania, Burkina Faso, Ghana, Togo, Benin, Nigeria and Niger.

Ferke-SegouThe 520 km of new lines, that costed EUR 125 mio, were indeed the missing link between the 225 kV OMVS system and the 330 kV coastal backbone network from Nigeria to Ghana. The two networks, joined together in one, now constitute one of biggest power system in Africa, stretching over 3,000 km from Mauritania to Nigeria, as promoted by the WAPP (West African Power Pool) since decades.

The OMVS (Organisation pour la mise en valeur du fleuve Sénégal, in French) is the Senegal River Basin Development Authority. It was established in 1972 by the governments of Guinea, Mali, Mauritania, and Senegal.

Personal emotion

I am personally happy that the line is finally in operation. I remember my first power system planning study, back in 1997. It was precisely the feasibility study for the interconnection between Mali and Ivory Coast, performed by Lahmeyer Int. The interconnection was already defined in a regional master plan performed in the eighties.

SLD Mali Ivory CoastFor ten years, there had been no significant progress. Finally, in 2007, I had again to revisit the study. India came to help the two countries to finance the project and the feasibility study had to be updated, again by Lahmeyer Int. The lines were then built accordingly to the detailed design prepared in the study. Now, they are online. It is always a great feeling for a planner to see that what he recommended years ago is finally built.

The construction wasn’t easy, taking into account the political uncertainties and security issues in both countries. I would like to pay respect to the engineers and workers who built the line in extremely tough conditions.

A smart move

Building overhead lines is not especially what one understand in the term “Smart Grid”. But taking into account the lack of high voltage network in Africa, the investment is really smart. Let’s continue to interconnect countries in West Africa. The next interconnection could be Ghana-Burkina Faso-Mali (Bolgatanga-Bobo Dioulasso-Sikasso – 600 km) or Guinea-Mali (N’Nzérékoré-Fomi-Fomi-Bamako – 920 km).

Gauthier Dupont
Dupont Energy Consulting GmbH

Looking for wind in Africa

Unfavorable wind pattern

Prevailing wind pattern found in the tropics is not very favorable for power generation. Mean wind speed is globally smaller than in Europe and the USA (see the map), except along some coasts (clockwise): North of Senegal, Mauritania, Morocco, Egypt, Somalia, Kenya, South Africa and Namibia. Best spots are predominantly remote, inhabited, and without infrastructures (road and power network).

Global wind speed

Optimistic wind maps

Wind maps, like the one displayed opposite, are created by models based on mathematical equations that describe the physics and dynamics of the atmosphere, calibrated from observational data. The more measurements, the higher the accuracy.

Wind measurement at wind generator height is a scare resource in Africa. Few measurement campaigns were performed, expect at some best spots. In vast areas, in particular the Sahara, calculated mean wind speed entirely relies on atmospheric model calibrated from data measured thousands kilometers away. Such results cannot be seriously used.

Higher vertical and horizontal resolution, as well as few measurements at 40 m were recently used to produce detailed wind maps for Mali and Senegal. Results confirm that global models overestimate wind speed in the Sahara. Wind potential is limited in a narrow band along the coast, where 8 m/s can be found. Wind speed dramatically declines when entering the continent. Best spots in Mali benefits for a mere 5.5 m/s.

Another wrong solution for Africa

Before the national wind map was available, Canadian wind developers supported by the Canadian development cooperation administration convinced the government of Mali to install an hybrid system (small wind turbine & diesel generator) in a remote small town reputed being windy. But the wind people feel is not the one needed for power generation. The wind turbine stands useless most of the time. Inhabitants are frustrated. They were told that the system would produce electricity mainly from wind, but now they have to pay for the fuel. Finally the wind turbine was dismantled and installed in another small town, leaving the diesel generator producing electricity and greenhouse gases. By the way, the same story was repeated in the other town.

Accurate wind map wanted

There is therefore an imperative need in Africa for wind measurements (typically at two thirds of hub height, i.e. 60 m to reach a high of 90 m for the wind turbines) and accurate wind maps. Global maps like the one above, as well as feelings and hearsay, cannot anymore be the only sources of information for decision makers to define investment policy.

Gauthier Dupont
Dupont Energy Consulting GmbH

The first wind farm in West Africa

Here we go

The French manufacturer Vergnet SA signed  in January 2011 a contract with the Mauritanian mining company Société Nationale Industrielle et Minière (SNIM)  for sixteen 275 kW wind turbines, i.e. a total of 4.4 MW.

The German company Lahmeyer International GmbH claims on their website to “support West Africa’s first wind farm project” with thirty-seven 275 kW wind turbines, also furnished by Vergnet. The 10 MW Katsina wind farm is currently under construction in North of Nigeria.

I don’t know who’s the first. I don’t care. It is important that real projects develop and that wind farms grow in West Africa, and elsewhere.

Weak wind, weak development

One has to admit that wind potential in West Africa is limited. The best region is a narrow coastal band starting from Dakar in Senegal, up to Morocco, with typical wind speed of 5 to 6 m/s. Some spots display values up to 7 m/s.

On the contrary solar potential is high with solar radiation up to 6 kWh/m²/day. It explain the relative success of photovoltaic projects, in particular household systems.

What’s next?

The Mauritanian Government invites wind turbines suppliers to apply for a new project close to the capital Nouakchott. The installed capacity would be between 30 and 40 MW. The deadline for offer submission is on the 11.12.2011.

There is study after study in Senegal since many years. The first wind farm would probably be installed in the North, close to Saint-Louis. The installed capacity would be between 15 and 50 MW. The French Developing Agency (Agence Française de Développement – AFD) is on the tracks to finance to project.

Announcements of up to 200 MW of wind energy in Nigeria proliferate. But Katsina wind farm remains the only actual project.

Gauthier Dupont
Dupont Energy Consulting GmbH