From 2GreenEnergy Intern Olivier Goavec: The Long-Term Prospect for Powering the Entire Continent of Europe with Huge CSP Arrays in Northern Africa

With its strong economic position in the world and its industrialization, Europe is an important energy consumer. This brings about the need for constant research to ensure that the future of electricity demand for the Continents is based on renewables. Over the last few years, researchers have been looking for ideas to provide electricity to Europe. Between 2003 and 2007 a group of international researchers began to think about Africa and, in particular, the Sahara Desert. Indeed, in the Sahara the amount of power from the sun is so huge that our capturing all the sun’s energy for six hours would be sufficient to provide all the energy that all of humanity needs for a full year. In 2009 a German nonprofit foundation called DESERTEC was founded to promote the installation of solar energy facilities in Africa. Shortly after the Dii (DESERTEC industrial initiative) was created, gathering 12 powerful German companies in order to support and invest in the concept. Since then DESERTEC’s project has been recognized as one of the most ambitious, and correspondingly one of the hardest to implement.

The Technology in DESERTEC’s Project:

Originally DESERTEC’s project had been designed to feed Africa and a part of Europe with electricity (15% by 2050), representing a 700Twh importation per year. That figure is more than the consumption of Germany, the most populous country in Europe with 80 million inhabitants and 600Twh consumption.

The idea is to install solar plants in the Northern Sahara and the Middle East — not solar photovoltaic panels, but solar thermal / concentrated solar power (CSP). This technology uses the sun to heat a liquid, in this case, water. Those who played with their magnifying glass to roast ants know how powerful this can be. It is the same principle with CSP; we concentrate the solar beam power, by means of mirrors, onto one common point or line, to heat a liquid. After that, CSP works like a classic electrical power plant; the water becomes steam which turns a turbine which drives a generator to produce electricity.

Here is the implementation of the power plant design at the beginning of the project:

There are different types of CSP. Solar towers deploy thousands of mirrors all around a tower, at the top of which a water reservoir is heated. The Ivanpah solar power facility in the U.S. is a good example; inaugurated in February 2014, this CSP power plant is the largest in the world (173,500 mirrors creating 392 MW on a 4000-acre tract).

Ivanpah solar power facility

The most common technology to date is parabolic trough, in which a fluid flows through a tube, generally black to absorb a maximum of power, which is heated to almost 500°C.

Parabolic trough, Andasol, Spain

In both cases, mirrors follow the sun to improve efficiency. Other kinds of technology exist but they are not of sufficient interest to enable me to develop them in this paper. One of the big advantages of the CSP concept lies in the fact that the heat can be easily stored in large quantity; it allows the production of electricity 24/7, even after sunset and on cloudy days.

Once we have the electricity in Africa, we still need to bring it back to Europe. For that, scientists suggest setting up high-voltage direct current transmission lines, or HVDC, to link the two continents.  The choice of that technology is simple: if we want to transport current over long distances, we will have lower losses in DC than in AC. This is because with AC we will produce reactive power in our transmission lines due to the capacitors and inductors present in the cable. Their impedance depends on the frequency, which is absent in DC. That reactive power produces an extra current which increase losses. HCDC lines could transport electricity with losses near to 3% per 1000km.

However, HVDC transmission lines are not so easy to implement. We need a strong power electronics system to convert AC current to DC and transport the electricity at nearly 1MV.  The line must be underwater which complicates the installation and necessitates the utilization of special vessels; this is not economical.

To get an idea of DESERTEC’s ambition, there are no fewer than 15.000 km² of mirrors and 20 HVDC transmission lines from which 5GW is expected.

The Sahara

The Sahara is the biggest desert in the world; it covers an area close to 9,400,000 km² and encompasses 11 countries: Algeria, Morocco, Libya, Mauritania, Tunisia, Egypt, Mali, Niger, Chad, and Sudan. Its average sunshine varies between 3000 and 4300h a year out of 4800 possible. Winters are mild, with temperatures up to 25°C (77°F) and summers are brutal with temperatures up to 50°C (122°F).  The Sahara is a huge reserve of power and at only a few hundred kilometers to the south of Europe, it is almost empty; just five million people are living here representing less than two inhabitants per km². At first glance, its exploitation should be easy, but many obstacles slow down the project and could kill it.

Main Problems with DESERTEC’s project

One of the biggest problems in DESERTEC’s project is the multitude of countries that share the Sahara. Each country has its own approach to renewable energy and towards dealing with Europe. Many Africans do not view the project happily.  Indeed, even if it can be profitable to their economy with the creation of jobs, it is also seen by many Africans as exploitation, a reprise of the colonial days. Moreover, unlike Europe, Africa is growing rapidly and needs more power to feed its needs. Also, many questions loom:  who will own the facility? What will be the feed-in tariffs? Will the market be bidirectional?

Lastly, thanks to HVDC transmission lines, the electrical current will be able to circulate on both sides; from Europe to Africa and Africa to Europe, in function of the power needed. But the paradox is that today in order to support its growth, Africa would be wrong to export its electricity to Europe.  And interestingly, Europe, especially in countries like Spain, needs to reinforce its grid to integrate renewable energy from variable sources, and perhaps export some of the extra power from renewables.  This is the king of all paradoxes.

Another important problem when you want to do business internationally is policy instability. Unfortunately, Africa is not what one might call a haven of peace and stability. Just look at Egypt, Libya, and Tunisia as examples; the Arab Spring of 2010 is not really over. In Egypt after the presidential election of 2012 which had seen the victory of Mohamed Morsi, another election will take place in 2014 — barely 2 years later; in 2011 Libya has also seen a revolution which has led the international community to intervene to bring peace to the country.

.  Tunisia also saw a revolution in 2010.  It is not possible to have a vision over the long term of an investment if the safety of the installations cannot be guaranteed, or if each successive government changes its mind about the project. On top of everything else is the risk of terrorism which is already very much present in Africa. Investors will not ignore this threat.

DESERTEC’s project also experiences difficulties in negotiation. Most of the time an interpreter is needed, which lengthens things. If you don’t speak Arabic or French in Africa, business can be difficult.

The cost of these CSP arrays has been estimated at 400 billon Euros ($549.62 billion). That represents an amount of about $15.3 billion per year till 2050, the supposed end of the complete project. But to date the concept is in trouble; after the Eurozone crisis started in 2010 with the Greek debt and the slowness of the project some historical investors are leaving, like Siemens and Bosch.

Last but not least, in the Sahara there is a lot of dust and CSP arrays needs to be clean to work efficiently. Of course the best way to clean the mirrors is with water, but this is problematic in a desert, where water is a rare gift not to be wasted. Thus to solve the problem, DESERTEC wants to install a desalination plant.

Unfortunately the project which had generated enthusiasm in 2009 can’t really pretend anymore to meet its objective of 15% of  Europe’s electricity production by 2050. The causes are the Arab Spring, European debt crisis, and the DESERTEC foundation itself, which launched the project even before it had talks with all the concerned countries. Nevertheless, even if the project were too big to be easily implemented, all is not lost. Indeed Morocco is still interested in a CSP array and would like to invest in this technology. DESERTEC also led to smaller projects, much more realizable and a bit less geocentric. We can point to the Transgreen project which wants to promote renewables in Africa, but above all, if successful, Transgreen would mean the creation of an HVDC transmission line to connect both continents. As of today, only two electrical links exist between Europe and Africa located between Spain and Morocco.

The DESERTEC concept has inspired, and maybe revolutionized the approach that this part of the world has toward energy. Today specialists pointed out that it would be interesting to transport the idea to the western Balkans, where countries like Albania, Bosnia Herzegovina, Croatia, Kosovo, Macedonia, Montenegro and Serbia have perfect weather conditions, stable policies, and have already started the production of CSP. It would be easier and faster to invest here; it would require only modest resources to improve upon electrical connections which already exist. Such a project would be quite economical when compared to DESERTEC. In 2005 the layout of the second subsea cable between Spain and Morocco had cost 115 million Euros; imagine the cost of 20 transmission lines, nearly 10 years after.

The western Balkans:

To conclude, we can say that DESERTEC’s project is surely a brilliant idea but, unfortunately, all the required conditions are not met. The region is too unstable to have a good vision over the long term, and the costs are too high. We certainly need to develop cooperation between the energy companies of both continents, and having a Mediterranean electricity market is a requirement to securing the grid. But it would be wise not to focus only on renewables at this time, even if countries like Morocco show a strong desire to implement sustainable energy. What is also important is to understand that DESERTEC’s project can’t be realized without the support of governments from both sides;  maybe that has been forgotten.

Sources:

https://www.destatis.de/DE/ZahlenFakten/Wirtschaftsbereiche/Energie/Erzeugung/Tabellen/ErneuerbareEnergie.html  English

http://www.desertec.org/  English

http://www.connaissancedesenergies.org/fiche-pedagogique/desertec  French

http://www.connaissancedesenergies.org/fiche-pedagogique/solaire-thermodynamique-concentration  French

http://fr.wikipedia.org/wiki/Sahara French

http://www.greentechmedia.com/articles/read/desertec-update-funding English

http://atlismta.org/online-journals/human-security/the-desertec-mirage/  English

http://www.maghrebemergent.com/energie/renouvelable/item/34535-pour-les-acteurs-energetiques-euro-mediterraneens-desertec-c-est-fini.html French

http://www.actu-environnement.com/ae/news/transgreen-desertec-energies-renouvelables-transport-electricite-afrique-ue-10429.php4 French

http://www.developpement-durable.gouv.fr/Le-projet-Transgreen-developper-l.html French

http://reneweconomy.com.au/2014/are-the-western-balkans-the-new-desertec-29580  English

http://www.euractiv.fr/energie/desertec-abandonne-ses-projets-e-news-528166 French

http://www.swissinfo.ch/fre/economie/En_crise,_le_projet_Desertec_veut_croire_en_son_avenir.html?cid=36642516 French