Morocco has a strategic location in the North West of the
African continent and is only 14 kilometers from Europe, across the Strait of
Gibraltar. In addition, it has varied relief — the Atlas and Rif Mountains, the
Sahara — and the length of its coasts — the Atlantic Ocean and the
Mediterranean Sea constitute 3500 km of coastline.
In the Ouarzazate region in central Morocco, for example,
the annual average daily global irradiation on a horizontal surface varies from
3.86 to 7.85 kWh/m2, which means an annual average of 7.9 to 11.2 hours of
sunshine per day. Concerning the wind potential, the annual average wind speed,
at 10 meters above sea level, for the Tangier zone in the north is 10m/s, but
for the Dakhla zone in the Laâyoune-Sakia El Hamra region, it varies between 7
and 8.5 m/s.
Morocco imports more than 96 percent of its energy needs and
its electricity consumption increases by about 8 percent per year. For this
reason a new energy strategy was adopted in 2009. It is based mainly on the
increase in the contribution of renewable energies to national electricity
consumption and the development of the clean energy economy. This will enable
Morocco to reduce its energy bill and its dependence on energy from abroad, in
addition to the limitation of its greenhouse gas emissions, thus contributing
to the preservation of the environment.
This strategy has been translated into a road map with
specific objectives and detailed work programs in the short and medium term.
Morocco has also developed a strategic vision of energy efficiency and resource
optimization aimed at achieving a 20 percent less consumption of energy by
2030. This strategy targets the most energy-intensive sectors, in particular
transport, building and industry, as well as agriculture and public lighting.
Since 1945, the construction of dams has been the primary
orientation of water management in Morocco. The hydroelectric sector has also
been particularly important since 1960. The contribution of installed
hydroelectric power (1800 MW), which depends on rainfall, is between 5.1
percent and 13.7 percent of the net electricity consumption.
In 2009, a large-scale solar energy use strategy was
launched by the creation of the "Moroccan Renewable Energy Agency"
(MASEN), which has become the "Moroccan Agency of Sustainable Energy"
(MASE), to develop renewable energies, particularly solar, wind and hydro, and
to promote regional integration between sub-Saharan Africa, European and Arab
countries, while strengthening the links with the main players in this sector
on a world-wide basis. Thanks to its model of sustainable development, its
objective to exploit renewable energies and its openness to world trends in the
electricity market, Morocco will be able to identify the latest innovations,
energy efficiency and clean technologies. Due to these objectives, Morocco is
moving towards the completion of the second phase of the "Noor"
solar energy program, by installing another series of multi-technology
solar power plants in Midelt, Tata, Lâayoune and Boujdour.
The solar power plant "Noor-Ouarzazate" (580 MW),
one of the largest solar energy complexes in the world, is the first solar
energy project piloted by MASE. It consists of four multi-technology solar
sub-plants, which will be developed in full compliance with international
standards, both technologically and environmentally, and associated with a
research platform. Among the concerns and objectives of MASEN, there are also:
The cost-effectiveness appropriation for energy storage
technologies,
The effects of the reduction of storage costs on the
expectations of electricity demand and the supply strategy of the national
market.
In Morocco, the strategy for using solar energy for
large-scale electricity generation was launched in 2009. The first power plant
(472 MW), incorporating 20 MW of solar power, was built in 2010. It is a
Solar-Natural Gas Hybrid Plant. The second giant solar power station "Noor
I" (160 MW) was built in 2016 in Ouarzazate. It uses concentrated solar
power (CSP) technology, with a three-hour electricity storage capacity, which
will be used during peak hours. A second (200 MW) and a third (150 MW) section
of the solar power plant "Noor-Ouarzazate," using the same CSP
technology, with a solar thermal tower and heliostats only in the third
section, but with a storage capacity of seven hours, are in the installation
stage.
In 2000, the first wind farm "Koudia Al Baida"
(Tetouan), with a capacity of 50 MW, was installed. However, the largest wind
farm in Morocco is Tarfaya (300.1 MW) in the south, built in 2014. It is the
largest in Africa. It deposed that of "Ashegodae" in Ethiopia (120
MW).
In recent years, the renewable energy consumption in Morocco has
become significant and is constantly growing, reflected by the beginning of the
construction of the fourth and final section (70 MW) of the
"Noor-Ouarzazate" solar power plant, which uses photovoltaic
technology. This allows the production of electrical energy directly from solar
radiation captured by semiconductor cells.
The completion of the construction of this section, which
will be operational by the end of 2018, is within the framework of a
partnership between MASE, the main actor in the sector of the exploitation of
renewable energies in Morocco and a consortium of private operators, headed by
the Saudi group "Aqua Power," after an international tender.
Morocco has also embarked on the installation of another
series of clean energy projects with a capacity of more than 1,200 MW. Its
completion will permit Morocco to take up the first place in Africa in this
sector.
At the end of 2016, the total installed capacity of renewable
energies amounted to 2,845 MW, of which 1,770 MW was for hydroelectricity, 895
MW for wind and 180 MW for solar.
The Moroccan electricity plan foresees the realization of an
additional capacity of approximately 7,249 MW to meet the demand, which should
increase by an average of 5.1 percent per annum over the period 2017 to 2021.
Renewable energies represent more than 74 percent of this total capacity, that
is to say, equivalent to 5,403 MW: 356 MW for wind, 3,425 MW for solar and 622
MW for hydro.
The share of solar and wind power will be 40 percent in 2030
compared to 13 percent in 2016 and only 2 percent in 2009. Eventually, 1,330 MW
for hydro will be installed against 4,560 MW for solar and 4,200 MW for the
wind.
Morocco, with this energy policy, opens up new horizons for
the future of clean energy in Africa. Its strategy includes, in addition to the
development of solar thermal, photovoltaic and wind energy, the introduction of
a series of legislative, regulatory and institutional reforms, while improving
tax benefits to encourage investment in this sector. Moreover, starting from
2015, for a rapid and successful energy transition, it will have increased the
share of renewable energies to 52 percent of its installed electricity capacity
by the year 2030. This requires the development of new additional capacity of
renewable energy of about 11 GW and a total investment estimated at US$30
billion.
Morocco also considers itself to be one of the most active
African countries for investment in this sector. This makes it one of the
pioneering African countries and it is among the first in Africa in the solar
energy sector and in the second position for wind energy. It also managed to
break through the 1,000 MW threshold in wind power installed in 2017, overtaking
Egypt and approaching the level of South Africa, which installed 1,582 MW. It
also plays a leading role in African development through training and
experience provided for a range of African countries.
Renewable energy programs and projects in Morocco are
arousing an increasing interest from international and local investors,
allowing Morocco to attract more investment in this sector, such as the
installation of an industrial unit of the group German Siemens, with an
investment of nearly 100 million Euros for the manufacture of wind turbine
blades in Morocco.
Morocco also aims, through the exploitation of its natural
renewable energy resources, to contribute to the preservation of the
environment and the assurance of the durability of its economic and social
development. In addition to the guarantee of a clean earth for future
generations, Morocco should comply with its international commitments made
at COP22 in
2016 in Marrakech, within the framework of the Climate Change Agreement adopted
in Paris in 2016 to reduce greenhouse gas emissions, mainly carbon dioxide.
The massive exploitation of renewable energies in Morocco,
which comes within the framework of the international commitments of Morocco
relating to the reduction of greenhouse gas emissions, allows it to reduce its
consumption of fossil, unlike Algeria, Egypt, Libya and Tunisia, where the
consumption of oil and natural gas dominates at more than 90 percent. It has
also set itself a strategic goal by building an electricity transmission line
to Spain and Italy, to become the EU's first sustainable clean electricity
supplier and to begin to be a regional center for the export of competitive
clean electricity to its neighbors.
The construction of more than 5,000 km of gas pipeline
connecting Nigeria, Africa's third largest gas producer, and Europe through
Morocco is essential. Gas is less of a pollutant than coal and oil. The
realization of this important economic and social project will strengthen
Morocco's relations in Africa and in Europe. This strategy gives credibility to
its economic policies and creates confidence in its North African diplomacy.
According to a study conducted by a group of researchers,
led by Wolfram Schlinker, Professor of Economics at the University of Columbia,
the rapid rise in global warming could triple the number of migrants arriving
in the EU by 2100, because of a sharp rise in temperature, in addition to the
other factors that force people to leave their countries, such as war and
persecution. Morocco's contribution, through the increasing use of more
renewable energy, could limit the numbers of immigrants from sub-Saharan
Africa.
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