Difference between revisions of "Tunisia Energy Situation"

From energypedia
***** (***** | *****)
***** (***** | *****)
 
(88 intermediate revisions by 5 users not shown)
Line 1: Line 1:
 
{{CES Country|CES Country Name=Tunisia
 
{{CES Country|CES Country Name=Tunisia
 
|CES Country Capital=Tunis
 
|CES Country Capital=Tunis
|CES Country Region=Middle East & North Africa
+
|CES Country Region Middle East and North Africa = Middle East & North Africa
 
|CES Country Coordinates=34.0000° N, 9.0000° E
 
|CES Country Coordinates=34.0000° N, 9.0000° E
 
}}
 
}}
Line 9: Line 9:
 
Tunisia is a small country located in Northern Africa sharing borders with Algeria and Libya. The country entails the Northern reaches of the Sahara desert and the Eastern end of the Atlas Mountains and has a Mediterranean coast. Therefore, the country has a bright diversity on climate and biosphere.
 
Tunisia is a small country located in Northern Africa sharing borders with Algeria and Libya. The country entails the Northern reaches of the Sahara desert and the Eastern end of the Atlas Mountains and has a Mediterranean coast. Therefore, the country has a bright diversity on climate and biosphere.
  
[[Tunisia_Energy_Situation#toc|►Go to Top]]
+
[[Tunisia Energy Situation#toc|►Go to Top]]
 
 
 
 
 
 
 
 
 
 
 
 
 
 
  
 
= Energy Situation<br/> =
 
= Energy Situation<br/> =
  
Since 1990, the Tunisian primary energy consumption has increased in a roughly linear way, with approximately 4500 ktoe in 1990, 6700 ktoe in 2000 and 8300 ktoe in 2010 (without biomass). As shown in Figure 1, the sharpest increase is to be noticed in the gas sector, which represented 55&nbsp;% of the primary energy supply in 2012. As a result of this, the share of oil, including crude oil and petroleum products, has slightly decreased. The share of coal and peat has always been minimal and by now reached zero. &nbsp;The amount of biofuel and waste slightly increased (58 PJ in 2011), and currently represents 15&nbsp;% of the primary energy supply. In 2014, primary energy consumption was about 9200 ktoe[[#_ftn1|[1]]] (i.e. 107 000 GWh or 385 PJ), without biomass.
+
Since 1990, the Tunisian primary energy consumption has increased in a roughly linear way, with approximately 4,500 ktoe in 1990, 6,700 ktoe in 2000 and 8,300 ktoe in 2010 (without biomass). As shown in Figure 1, the sharpest increase is to be noticed in the gas sector, which represented 55&nbsp;% of the primary energy supply in 2012. As a result, the share of oil, including crude oil and petroleum products, has slightly decreased. The share of coal and peat has always been minimal and now reached zero. &nbsp;The amount of biofuel and waste slightly increased (58 PJ in 2011), and currently represents 15&nbsp;% of the primary energy supply. In 2014, primary energy consumption was about 9,200 ktoe<ref name="Bureau des statistiques, Ministère de l’Industrie.">Bureau des statistiques, Ministère de l’Industrie.</ref> (i.e. 107,000 GWh or 385 PJ), without biomass.
  
[[File:Primary En Consumption TUN.png|center|532x412px]]<br/>
+
Figure 1: Primary Energy Consumption since 1990<ref name="ANME Maîtrise de l'Energie en Tunisie - Chiffres Clés, p19.">ANME Maîtrise de l'Energie en Tunisie - Chiffres Clés, p19.</ref><br/>
  
[[File:Primary En Consumption TUN.png|none|5px|Primary En Consumption TUN.png|link=https://energypedia.info/wiki/File:Primary_En_Consumption_TUN.png]][[#_ftn2|[2]]]
+
[[File:Primary En Consumption TUN.png|border|left|x412px|Primary En Consumption TUN.png|alt=Primary En Consumption TUN.png]]
 
+
<div style="clear: both">
<br/>
+
[[Tunisia Energy Situation#toc|►Go to Top]]
 +
</div>
 +
== Energy Data<br/> ==
  
== Energy Data ==
+
=== Primary Energy Consumption<br/> ===
 
 
=== Primary Energy Consumption ===
 
 
<div>
 
<div>
{| cellspacing="1" cellpadding="0" border="1" style="width: 100%; width:100.0%"
+
{| cellspacing="1" cellpadding="0" border="1" style="width: 100%; width:100.0%"
 
|-
 
|-
 
| style="width:318px" |  
 
| style="width:318px" |  
Total Primary Energy Consumption in 2014[[#_ftn1|[3]]]* (without biomass, PV, SWH, process heat, self-consumption of oil fields, consumption of natural gas pipeline compressor stations)
+
Total Primary Energy Consumption in 2014<ref name="Bureau des statistiques, Ministère de l‘Industrie.">Bureau des statistiques, Ministère de l‘Industrie.</ref>* (without biomass, PV, SWH, process heat, self-consumption of oil fields, consumption of natural gas pipeline compressor stations)<br/>
  
 
| style="width:67px" |  
 
| style="width:67px" |  
Line 70: Line 63:
  
 
| style="width:67px" |  
 
| style="width:67px" |  
4232
+
4,232
  
 
| style="width:87px" |  
 
| style="width:87px" |  
49218
+
49,218
  
 
| style="width:65px" |  
 
| style="width:65px" |  
177185
+
177,185
  
 
| style="width:68px" |  
 
| style="width:68px" |  
Line 86: Line 79:
  
 
| style="width:67px" |  
 
| style="width:67px" |  
4876
+
4,876
  
 
| style="width:87px" |  
 
| style="width:87px" |  
56708
+
56,708
  
 
| style="width:65px" |  
 
| style="width:65px" |  
204148
+
204,148
  
 
| style="width:68px" |  
 
| style="width:68px" |  
Line 105: Line 98:
  
 
| style="width:87px" |  
 
| style="width:87px" |  
3852
+
3,852
  
 
| style="width:65px" |  
 
| style="width:65px" |  
1070
+
1,070
  
 
| style="width:68px" |  
 
| style="width:68px" |  
Line 118: Line 111:
  
 
| style="width:67px" |  
 
| style="width:67px" |  
'''9200'''
+
'''9,200'''
  
 
| style="width:87px" |  
 
| style="width:87px" |  
'''106996'''
+
'''106,996'''
  
 
| style="width:65px" |  
 
| style="width:65px" |  
'''385186'''
+
'''385,186'''
  
 
| style="width:68px" |  
 
| style="width:68px" |  
Line 180: Line 173:
  
 
(*) Data not yet officially published
 
(*) Data not yet officially published
 
+
</div>
 +
[[Tunisia Energy Situation#toc|►Go to Top]]
  
 
=== Energy balance, import and export ===
 
=== Energy balance, import and export ===
  
{| cellspacing="1" cellpadding="0" border="1" style="width: 100%; width:100.0%"
+
{| cellspacing="1" cellpadding="0" border="1" style="width: 100%; width:100.0%"
 
|-
 
|-
 
| colspan="4" |  
 
| colspan="4" |  
'''Tunisia's energy production, consumption and import/export balance in 2012[[#_ftn1|'''[4]''']]'''
+
'''Tunisia's energy production, consumption and import/export balance in 2012<ref name="http://www.iea.org/statistics/statisticssearch/report/?year=2012&country=TUNISIA&product=Balances">http://www.iea.org/statistics/statisticssearch/report/?year=2012&country=TUNISIA&product=Balances</ref>'''
  
 
|-
 
|-
Line 202: Line 196:
  
 
| style="width:142px" |  
 
| style="width:142px" |  
3522
+
3,522
  
 
| style="width:121px" |  
 
| style="width:121px" |  
2563
+
2,563
  
 
|-
 
|-
Line 212: Line 206:
  
 
| style="width:142px" |  
 
| style="width:142px" |  
1139
+
1,139
  
 
| style="width:121px" |  
 
| style="width:121px" |  
2480
+
2,480
  
 
|-
 
|-
Line 222: Line 216:
  
 
| style="width:142px" |  
 
| style="width:142px" |  
&nbsp;-2741
+
&nbsp;-2,741
  
 
| style="width:121px" |  
 
| style="width:121px" |  
Line 232: Line 226:
  
 
| style="width:142px" |  
 
| style="width:142px" |  
1946
+
1,946
  
 
| style="width:121px" |  
 
| style="width:121px" |  
5043
+
5,043
  
 
|-
 
|-
Line 248: Line 242:
  
 
|}
 
|}
<div><br/><div id="ftn1">
+
<div></div><div><br/></div><div>As shown in Figure 2, the Tunisian energy situation has drastically changed in the last two decades. Resulting from the economic development, primary energy demand has risen in a significantly steeper way than production. Consumption nearly doubled within 20 years between 1992 and 2012 from 4,500 ktoe to 8,500 ktoe. Between 1990 and 2000, consumption increased at a rate of 6.2%/year. Between 2000 and 2005, demand grew by 4.6%/year and between 2005 and 2009, annual demand growth slowed to 3.7%, mainly due to energy efficiency measures<ref name="http://www.iisd.org/gsi/sites/default/files/fossil-fuel-subsidies-renewable-energy-middle-east-north-african-countri%20%20%20.pdf ">http://www.iisd.org/gsi/sites/default/files/fossil-fuel-subsidies-renewable-energy-middle-east-north-african-countri%20%20%20.pdf </ref>. &nbsp;In 2014, primary energy consumption was 9,200 ktoe (without biomass), of which 46% was provided by oil products, 53% was provided by natural gas and 1% by renewable energies<ref name="Bureau des statistiques, Ministère de l‘Industrie.">Bureau des statistiques, Ministère de l‘Industrie.</ref>.</div>
[[#_ftnref1|[4]]] [http://www.iea.org/statistics/statisticssearch/report/?year=2012&country=TUNISIA&product=Balances http://www.iea.org/statistics/statisticssearch/report/?year=2012&country=TUNISIA&product=Balances]
+
Oil production decreased between 1980 and 2012 from 120,000 to 67,000 barrels per day. Gas production, however, increased from 20 billion cubic feet in the early 1980s to 68 billion cubic feet in 2012. An overall increase in domestic primary energy production from 5,400 ktoe in 1900 to 7,000 ktoe in 2012 could not follow the sharp rise in demand.
</div></div>
 
As shown in Figure 2, the Tunisian energy situation has drastically changed in the last two decades. As a result of the economic development, primary energy demand has risen in a significantly steeper way than production. Consumption nearly doubled within 20 years between 1992 and 2012 from 4500 ktoe to 8500 ktoe. Between 1990 and 2000, consumption increased at a rate of 6.2%/year. Between 2000 and 2005, demand grew by 4.6%/year and between 2005 and 2009, annual demand growth slowed to 3.7%, mainly due to energy efficiency measures[[#_ftn1|[5]]]. &nbsp;In 2014, primary energy consumption was 9200 ktoe (without biomass), of which 46% was provided by oil products, 53% was provided by natural gas and 1% by renewable energies[[#_ftn2|[6]]].
 
  
Oil production decreased between 1980 and 2012 from 120,000 to 67,000 barrels per day. Gas production, however, increased from 20 billion cubic feet in the early 1980s to 68 billion cubic feet in 2012. An overall increase in domestic primary energy production from 5400 ktoe in 1900 to 7000 ktoe in 2012 could not follow the sharp rise in demand.
+
Hence the unbalanced consumption illustrated in Figure 2. Tunisia, a net energy exporter until 2000, has become a net importer. In 2014, 49% of natural gas consumption (2,300 ktoe) was covered by domestic production. The remaining 51% (2,400 ktoe) was imported from Algeria<ref name="Ibid.">Ibid.</ref>.
 +
<div>
 +
Figure 2: From a Net-Exporter to a Net-Importer<ref name="ANME, Maîtrise de l'Energie en Tunisie - Chiffres Clés, p18.">ANME, Maîtrise de l'Energie en Tunisie - Chiffres Clés, p18.</ref><br/>
 +
<div id="ftn3">
 +
[[File:TUN Net Importer.png|border|left|500pxpx|TUN Net Importer.png|alt=TUN Net Importer.png]]<div style="clear: both">Becoming a net importer implies a rise in energy prices since the mid-2000s (natural gas is today 8 times more expensive than it was in 2000) and a weak national currency (Dinar, TND) (2010: 1.8 TND=1.0 €; 2012: 2.0 TND=1.0 €; 2015:2.2 TND=1.0 €) makes the imports more expensive. Thus, expenses for energy represented 13.7% of GDP in 2012 − with expenses on energy import representing 16.8% of the global imports<ref name="http://www.leaders.com.tn/article/11353-la-tunisie-sera-t-elle-capable-d-arreter-l-hemorragie-des-subventions">http://www.leaders.com.tn/article/11353-la-tunisie-sera-t-elle-capable-d-arreter-l-hemorragie-des-subventions</ref>.
 +
</div></div></div>
 +
[[Tunisia Energy Situation#toc|►Go to Top]]
  
As a result of the consumption/production unbalanced illustrated in Figure 2, Tunisia, a net energy exporter until 2000, became a net importer. In 2014, 49% of natural gas consumption (2300 ktoe) was covered by domestic production. The remaining 51% (2400 ktoe) was imported from Algeria[[#_ftn3|[7]]].
+
=== Subsidies ===
<div><br/><div id="ftn1">
 
[[#_ftnref1|[5]]] [http://www.iisd.org/gsi/sites/default/files/fossil-fuel-subsidies-renewable-energy-middle-east-north-african-countri%20%20%20.pdf http://www.iisd.org/gsi/sites/default/files/fossil-fuel-subsidies-renewable-energy-middle-east-north-african-countri%20%20%20.pdf]
 
</div><div id="ftn2">
 
[[#_ftnref2|[6]]] Bureau des statistiques, Ministère de l‘Industrie
 
</div><div id="ftn3">
 
[[#_ftnref3|[7]]] ''Ibid.''
 
  
 +
The energy sector is heavily subsidised in Tunisia. Subsidies for natural gas as well as electricity started a sharp increase in the early 2000s. In 2012, energy subsidies amounted to 5,600 million TND (3,100 million EUR), i.e. 20% of public budget or 9% of GDP. Whereas energy subsidies only represented 3% of GDP in 2005. This rise in subsidies is not sustainable for the state and has several negative effects on public spending such as a decreasing budget for public investments<ref name="Présentation Déjeuner-Débat du 24 Mars 2014, Rafik Missaoui.">Présentation Déjeuner-Débat du 24 Mars 2014, Rafik Missaoui.</ref>. Subsidising procedures remain non-transparent. The subsidy system is composed of indirect and direct subsidies. Indirect subsidies are the difference between supply costs of crude oil and gas for the State, and the selling prices to the two public operators STIR for oil and STEG for natural gas. Direct subsidies are subsidies made ​​directly by the State to STIR and STEG in order to offset their deficits<ref name="Ibid.">Ibid.</ref>. &nbsp;
  
 +
As for electricity, average retail prices (0.14 TND/kWh in 2012) are significantly lower than average production costs for the State (0.26 TND/kWh in 2012). The discrepancies between average production cost and average retail price are even larger for natural gas<ref name="Ibid.">Ibid.</ref>.
  
[[File:TUN Net Importer.png|none|500pxpx]]<br/>[[#_ftn1|[8]]]
+
[[Tunisia Energy Situation#toc|►Go to Top]]
<div><br/><div id="ftn1">
 
[[#_ftnref1|[8]]] ANME Maîtrise de l'Energie en Tunisie - Chiffres Clés, p18
 
</div></div>
 
<br/>Becoming a net importer is coupled with rising energy prices since the mid-2000s (natural gas is today 8 times more expensive than it was in 2000) and a weak national currency (Dinar, TND) (2010: 1.8 TND=1.0 €; 2012: 2.0 TND=1.0 €; 2015:2.2 TND=1.0 €). Thus expenses for energy represented 13.7% of GDP in 2012 − with expenses on energy import representing 16.8% of the global imports[[#_ftn1|[9]]].
 
<div><br/><div id="ftn1">
 
[[#_ftnref1|[9]]] [http://www.leaders.com.tn/article/11353-la-tunisie-sera-t-elle-capable-d-arreter-l-hemorragie-des-subventions http://www.leaders.com.tn/article/11353-la-tunisie-sera-t-elle-capable-d-arreter-l-hemorragie-des-subventions]
 
  
<br/>
 
</div></div></div></div>
 
  
 +
== Renewable Energy<br/> ==
  
=== Subsidies ===
+
Currently, renewable energy plays a minor role in the energy supply.The use of solar energy for thermal purposes is widespread in Tunisia and can be regarded as a success story. Since its launch in 2005, the ANME program “PROSOL THERMIQUE”, meant to promote the installation of solar water heaters, has led to an installed capacity of 487,853 m<sup>2</sup> in 2012<ref name="GIZ, Le marché solaire thermique en Tunisie. Christopher Gross, Situation actuelle et perspectives (2013).">GIZ, Le marché solaire thermique en Tunisie. Christopher Gross, Situation actuelle et perspectives (2013).</ref>.<br/>
  
The energy sector is heavily subsidised in Tunisia. Subsidies for natural gas as well as electricity started a sharp increase in the early 2000s. &nbsp;In 2012, energy subsidies represented 20% of the government budget. In 2012, energy subsidies amounted to 5600 million TND (3100 million EUR), i.e. 20% of public budget or 9% of GDP. Whereas energy subsidies only represented 3% of GDP in 2005. This rise in subsidies is not sustainable for the state and has several negative effects on public spending such as a decreased budget for public investments[[#_ftn1|[10]]]. Subsidizing procedures remain non-transparent. The subsidy system is composed of indirect and direct subsidies. Indirect subsidies are to the difference between supply costs of crude oil and gas for the State, and the selling prices to the two public operators STIR for oil and STEG for natural gas. Direct subsidies are subsidies made ​​directly by the State to STIR and STEG in order to offset their deficits[[#_ftn2|[11]]]. &nbsp;
+
Regarding grid-connected renewables, the total installed capacity of renewable energy was an estimated of 312 MW in early 2016 (245 MW of wind energy, 62 MW of hydropower and 25 MW of PV), that was 6% of the total capacity<ref name="Bureau des statistiques, Ministère de l‘Industrie.">Bureau des statistiques, Ministère de l‘Industrie.</ref>. In terms of electricity production this meant 3% of this an annual production in 2013: 2.6% (357.8 GWh) from wind turbines and 0.4% (60.1 GWh) from hydropower<ref name="http://www.oitsfax.org/files/AApresentationHDR20140323.pdf">http://www.oitsfax.org/files/AApresentationHDR20140323.pdf</ref>.<br/>
  
As for electricity, average retail prices (0.14 TND/kWh in 2012) are significantly lower than average production costs for the State (0.26 TND/kWh in 2012). The discrepancies between average production cost and average retail price are even larger for natural gas[[#_ftn3|[12]]].
+
There are two large wind parks in Tunisia, both operated by state utility STEG, one in the region of Bizerte in Metline and Kechabta &nbsp;with a capacity of 190 MW operational since 2012; and one in the region of Sidi Daoud, with a capacity of 55 MW, built in 3 phases between 2000 and 2009<ref name="Ibid.">Ibid.</ref>.<br/>
<div><br/><div id="ftn1">
 
[[#_ftnref1|[10]]] Présentation Déjeuner-Débat du 24 Mars 2014, Rafik Missaoui
 
</div><div id="ftn2">
 
[[#_ftnref2|[11]]] ''Ibid.''
 
</div><div id="ftn3">
 
[[#_ftnref3|[12]]] ''Ibid.''
 
  
== Renewable Energy ==
+
&nbsp;As for photovoltaics, there was a total capacity of 25 MW as of early 2016, mostly small-scale private installations most of whose capacity ranges between 1 kW and 10 kW. In low voltage, in the residential sector the capacities range from 1 kW to 17 kW and in the commercial sector capacities are between 10 and 30 kW. In medium voltage, capacities in commercial sector range between 25 and 100 kW<ref name="GIZ, RE-ACTIVATE.">GIZ, RE-ACTIVATE.</ref>. As of early 2015, there were only three operational PV installations with a capacity of at least 100 kW: a 149 kWp installation in Sfax<ref name="GIZ, Enabling PV.">GIZ, Enabling PV.</ref>, a 211 kWp installation operated by the Tunisian potable water supply company SONEDE and a 100 kWp installation in the region of Korba<ref name="https://energypedia.info/images/a/a2/COMPTE_RENDU_Modes_de_Financement.pdf">https://energypedia.info/images/a/a2/COMPTE_RENDU_Modes_de_Financement.pdf</ref>, both connected to the medium voltage, and realized by Tunisian installer companies.<br/>
  
Currently, renewable energy plays a minor role in the energy supply.The use of solar energy for thermal purposes is widespread in Tunisia and can be regarded as a success story. Since its launch in 2005, the ANME program “PROSOL THERMIQUE”, meant to promote the installation of solar water heaters, has led to an installed capacity of 487853 m^2 in 2012[[#_ftn1|[13]]].
+
The first large scale solar power plant of a 10 MW capacity, co-financed by the German development bank KfW and the EU's <span style="font-size: 13.6px; line-height: 20.4px; background-color: rgb(255, 255, 255);">Neighbourhood Investment Facility</span>&nbsp;(NIF) and implemented by STEG, is due 2018 in Tozeur<ref name="GIZ, Secretariat of the German-Tunisian Energy Partnership.">GIZ, Secretariat of the German-Tunisian Energy Partnership.</ref>.<br/>
  
Regarding grid-connected renewables, the total installed capacity of renewable energy was an estimated of 312 MW in 2014 (245 MW of wind energy, 62 MW of hydropower and 15 MW of PV), that was 6% of the total capacity[[#_ftn2|[14]]]. In terms of electricity production this meant in 2013 3% of this an annual production: 2.6% (357.8 GWh) from wind turbines and 0.4% (60.1 GWh) from hydropower[[#_ftn3|[15]]].
+
Regarding the off-grid use of renewable energies, 11,000 decentralised PV systems have been installed<ref name="GIZ, Enabling PV.">GIZ, Enabling PV.</ref>.
 +
<div><div id="ftn9">
 +
[[Tunisia Energy Situation#toc|►Go to Top]]
 +
</div></div>
  
There are two large wind parks in Tunisia, both operated by state utility STEG, one in the region of Bizerte in Metline and Kechabta &nbsp;with a capacity of 190 MW operational since 2012; and one in the region of Sidi Daoud, with a capacity of 55 MW, built in 3 phases between 2000and 2009[[#_ftn4|[16]]].
 
 
&nbsp;
 
 
As for photovoltaics, there was a total capacity of 15 MW as of early 2015, mostly small-scale private installations most of whose capacity ranges between 1 kW and 10 kW. In low voltage, in the residential sector the capacities range from 1 kW to 17 kW and in the commercial sector capacities are between 10 and 30 kW. In medium voltage, capacities in commercial sector range between 25 and 100 kW[[#_ftn5|[17]]]. As of early 2015, there were only three operational PV installations with a capacity of at least 100 kW: a 149 kWp installation in Sfax[[#_ftn6|[18]]], a 211 kWp installation operated by the Tunisian potable water supply company SONEDE and a 100 kWp installation in the region of Korba[[#_ftn7|[19]]], both connected to the medium voltage, and realized by Tunisian installer companies.
 
 
The first large scale solar power plant of a 10MW capacity, co-financed by KfW and NIF (Neighbourhood Investment Facility) and implemented by STEG, is due 2018 in Tozeur.[[#_ftn8|[20]]]
 
 
Regarding the off-grid use of renewable energies, 11,000 decentralised PV systems have been installed[[#_ftn9|[21]]].A new law on renewable energies currently discussed at the Parliament, might help for a stronger intake on the market, if the indispensable guidelines on regulation and on project financing are met.
 
<div><br/><div id="ftn1">
 
[[#_ftnref1|[13]]] GIZ, Le marché solaire thermique en Tunisie. Situation actuelle et perspectives (2013). Christopher Gross.
 
</div><div id="ftn2">
 
[[#_ftnref2|[14]]] Bureau des statistiques, Ministère de l‘Industrie
 
</div><div id="ftn3">
 
[[#_ftnref3|[15]]] [http://www.oitsfax.org/files/AApresentationHDR20140323.pdf http://www.oitsfax.org/files/AApresentationHDR20140323.pdf]
 
</div><div id="ftn4">
 
[[#_ftnref4|[16]]] [http://www.oitsfax.org/files/AApresentationHDR20140323.pdf http://www.oitsfax.org/files/AApresentationHDR20140323.pdf]
 
</div><div id="ftn5">
 
[[#_ftnref5|[17]]] GIZ – RE-ACTIVATE
 
</div><div id="ftn6">
 
[[#_ftnref6|[18]]] GIZ, Enabling PV
 
</div><div id="ftn7">
 
[[#_ftnref7|[19]]] [https://energypedia.info/images/a/a2/COMPTE_RENDU_Modes_de_Financement.pdf https://energypedia.info/images/a/a2/COMPTE_RENDU_Modes_de_Financement.pdf]
 
</div><div id="ftn8">
 
[[#_ftnref8|[20]]] Secretariat of the German-Tunisian Energy Partnership
 
</div><div id="ftn9">
 
[[#_ftnref9|[21]]] GIZ, Enabling PV
 
 
<br/>
 
  
 
== Electricity ==
 
== Electricity ==
Line 329: Line 284:
 
=== Installed Capacity and Generation ===
 
=== Installed Capacity and Generation ===
  
The installed capacity was of 4,799 MW in 2014[[#_ftn1|[22]]] ‒ with the biggest share (4,492 MW/94%) provided by natural gas fired thermal power stations. The 6% left are divided between hydroelectric power (62 MW as of 2014) and wind generating plants (245 MW as of 2014[[#_ftn2|[23]]]). Electricity is generated almost exclusively from combustible fossil fuels: 93&nbsp;% natural gas, 7&nbsp;% heavy fuel and a tiny share left to renewables (3% in 2013[[#_ftn3|[24]]]).
+
The installed capacity was of 4,799 MW in 2014<ref name="Bureau des statistiques, Ministère de l’Industrie.">Bureau des statistiques, Ministère de l’Industrie.</ref> ‒ with the biggest share (4,492 MW/94%) provided by natural gas fired thermal power stations. The 6% left are divided between hydroelectric power (62 MW as of 2014) and wind generating plants (245 MW as of 2014<ref name="http://www.anme.nat.tn/fileadmin/user1/doc/DEP/Rapport_final__PST.pdf">http://www.anme.nat.tn/fileadmin/user1/doc/DEP/Rapport_final__PST.pdf</ref>). Electricity is generated almost exclusively from combustible fossil fuels: 93&nbsp;% natural gas, 7&nbsp;% heavy fuel with only a tiny share left to renewables (3% in 2013<ref name="http://www.oitsfax.org/files/AApresentationHDR20140323.pdf">http://www.oitsfax.org/files/AApresentationHDR20140323.pdf</ref>).
  
 
In 2014, the state-owned company, STEG, remained the major electricity producer, supplying 86% of the demand, followed by an IPP, CPC (Carthage Power Company) which produced 10% of the consumed electricity. The last 4% are produced by small scale producers for their own needs (e.g. industries). &nbsp;
 
In 2014, the state-owned company, STEG, remained the major electricity producer, supplying 86% of the demand, followed by an IPP, CPC (Carthage Power Company) which produced 10% of the consumed electricity. The last 4% are produced by small scale producers for their own needs (e.g. industries). &nbsp;
  
&nbsp;
+
&nbsp;'''Installed power plant capacity in MW (excluding small scale PV)<ref name="Bureau des statistiques, Ministère de l‘Industrie.">Bureau des statistiques, Ministère de l‘Industrie.</ref>'''
 
 
'''Installed power plant capacity in MW (excluding small scale PV)[[#_ftn4|'''[25]''']]'''
 
  
{| cellspacing="1" cellpadding="0" border="1" style="width: 48%; width:48.44%"
+
{| cellspacing="1" cellpadding="0" border="1" style="width: 48%; width:48.44%"
 
|-
 
|-
 
| style="width:135px" |  
 
| style="width:135px" |  
Line 356: Line 309:
  
 
| style="width:40px" |  
 
| style="width:40px" |  
1.040
+
1,040
  
 
| style="width:72px" |  
 
| style="width:72px" |  
1.040
+
1,040
  
 
| style="width:44px" |  
 
| style="width:44px" |  
Line 372: Line 325:
  
 
| style="width:72px" |  
 
| style="width:72px" |  
1.209
+
1,209
  
 
| style="width:44px" |  
 
| style="width:44px" |  
Line 382: Line 335:
  
 
| style="width:40px" |  
 
| style="width:40px" |  
1.772
+
1,772
  
 
| style="width:72px" |  
 
| style="width:72px" |  
1.779
+
1,779
  
 
| style="width:44px" |  
 
| style="width:44px" |  
Line 421: Line 374:
  
 
| style="width:40px" |  
 
| style="width:40px" |  
'''3.908'''
+
'''3,908'''
  
 
| style="width:72px" |  
 
| style="width:72px" |  
'''4.335'''
+
'''4,335'''
  
 
| style="width:44px" |  
 
| style="width:44px" |  
Line 447: Line 400:
  
 
| style="width:40px" |  
 
| style="width:40px" |  
'''4.379'''
+
'''4,379'''
  
 
| style="width:72px" |  
 
| style="width:72px" |  
'''4.806'''
+
'''4,806'''
  
 
| style="width:44px" |  
 
| style="width:44px" |  
Line 458: Line 411:
  
 
(*)Data not yet officially published
 
(*)Data not yet officially published
 +
 +
[[Tunisia Energy Situation#toc|►Go to Top]]
 +
  
 
=== Consumption ===
 
=== Consumption ===
  
In Tunisia the industrial sector is the largest energy consumer (see beneath).
+
The peak load in 2012 was 3 353 MW and in 2013, due to more favorable climatic conditions, 3 144 MW.
 +
 
 +
In Tunisia 46% of the electricity was consumed on the low voltage level, 45% on the medium voltage and 9% on the high voltage level.
  
{| cellspacing="1" cellpadding="0" border="1" style="width: 100%; width:100.0%"
+
{| cellspacing="1" cellpadding="0" border="1" style="width: 100%; width:100.0%"
 
|-
 
|-
 
| style="width:407px" |  
 
| style="width:407px" |  
'''Electricity consumption of individual sectors in 2013[[#_ftn5|'''[26]''']]'''
+
'''Electricity consumption of individual sectors in 2013<ref name="STEG, Rapport annuel 2013.">STEG, Rapport annuel 2013.</ref>'''
  
 
| style="width:113px" |  
 
| style="width:113px" |  
Line 480: Line 438:
 
|-
 
|-
 
| style="width:407px" |  
 
| style="width:407px" |  
Industry
+
Industry (Medium and High Voltage)
  
 
| style="width:113px" |  
 
| style="width:113px" |  
4,909
+
4 909
  
 
| style="width:87px" |  
 
| style="width:87px" |  
63
+
34
  
 
|-
 
|-
 
| style="width:407px" |  
 
| style="width:407px" |  
Transport & communication
+
Transport & communication<span style="font-size: 13.6px; line-height: 20.4px; background-color: rgb(255, 255, 255);">&nbsp;(Medium and High Voltage)</span>
  
 
| style="width:113px" |  
 
| style="width:113px" |  
Line 496: Line 454:
  
 
| style="width:87px" |  
 
| style="width:87px" |  
4
+
2
  
 
|-
 
|-
 
| style="width:407px" |  
 
| style="width:407px" |  
Tourism
+
Tourism<span style="font-size: 13.6px; line-height: 20.4px; background-color: rgb(255, 255, 255);">&nbsp;(Medium and High Voltage)</span>
  
 
| style="width:113px" |  
 
| style="width:113px" |  
Line 506: Line 464:
  
 
| style="width:87px" |  
 
| style="width:87px" |  
7
+
4
  
 
|-
 
|-
 
| style="width:407px" |  
 
| style="width:407px" |  
Service
+
Service<span style="font-size: 13.6px; line-height: 20.4px; background-color: rgb(255, 255, 255);">&nbsp;(Medium and High Voltage)</span>
  
 
| style="width:113px" |  
 
| style="width:113px" |  
Line 516: Line 474:
  
 
| style="width:87px" |  
 
| style="width:87px" |  
11
+
6
  
 
|-
 
|-
 
| style="width:407px" |  
 
| style="width:407px" |  
Agricultural pump sets
+
Agricultural pump sets<span style="font-size: 13.6px; line-height: 20.4px; background-color: rgb(255, 255, 255);">&nbsp;(Medium and High Voltage)</span>
  
 
| style="width:113px" |  
 
| style="width:113px" |  
Line 526: Line 484:
  
 
| style="width:87px" |  
 
| style="width:87px" |  
7
+
4
  
 
|-
 
|-
 
| style="width:407px" |  
 
| style="width:407px" |  
Pumping stations (water, sanitation service)
+
Pumping stations (water, sanitation service)<span style="font-size: 13.6px; line-height: 20.4px; background-color: rgb(255, 255, 255);">&nbsp;(Medium and High Voltage)</span>
  
 
| style="width:113px" |  
 
| style="width:113px" |  
Line 536: Line 494:
  
 
| style="width:87px" |  
 
| style="width:87px" |  
7
+
4
 +
 
 +
|-
 +
| style="width:407px" |
 +
Low voltage
 +
 
 +
| style="width:113px" |
 +
6 521
 +
 
 +
| style="width:87px" |
 +
45
  
 
|-
 
|-
Line 543: Line 511:
  
 
| style="width:113px" |  
 
| style="width:113px" |  
'''7,797'''
+
'''14 380'''
  
 
| style="width:87px" |  
 
| style="width:87px" |  
100
+
'''100'''
  
 
|}
 
|}
Line 554: Line 522:
 
The gas consumption has marked a steep increase (5,344 Ktep in 2013) and 72.5% of its production is used for electricity consumption, 7.1% for the industry sector and 20% for the residential and tertiary sectors.
 
The gas consumption has marked a steep increase (5,344 Ktep in 2013) and 72.5% of its production is used for electricity consumption, 7.1% for the industry sector and 20% for the residential and tertiary sectors.
  
=== Grid ===
+
[[Tunisia Energy Situation#toc|►Go to Top]]
 
 
STEG controls the Tunisian grid and holds a monopoly on electricity transportation and distribution. The grid has three voltages: high (225 kV), medium (150 kV) and low (90 kV). 99.5% of the households have had an access to electricity since 2006. &nbsp;
 
 
 
The transmission grid is connected to the Algerian grid and, on its Eastern end, to Libya. Regional grid synchronization tests with the participation of Morocco, Algeria, Tunisia, Libya and Egypt have been carried out but failed so far due to frequent synchronization issues with the Egyptian grid. Furthermore, a 400 kV high voltage sea cable with a capacity of 1,000 MW binding North Africa to Europe via Tunisia and Italy is currently discussed[[#_ftn6|[27]]].
 
 
 
Grid losses are primarily due to maintenance or other incidents. Along with the prolonging of the transmission grid, losses have risen in 2012 it represented 2,735 GWh[[#_ftn7|[28]]]. The growing economy of Tunisia and rise of living standards contributed to a significant increase in the electricity consumption leading to ever more often grid saturation. In addition, some power plants and facilities are out-dated and can no longer cope with the actual load of the network; hence, overload, losses and high voltage drops occur on a regular basis. To address these issues, the&nbsp;»Electricity Distribution Network Rehabilitation and Restructuring Project«&nbsp;has been launched, this should improve the reliability and safety of electricity distribution.
 
  
 
<br/>
 
<br/>
  
=== Electricity Prices ===
 
  
General low voltage as of February 2015. [https://www.steg.com.tn/fr/clients_ind/tarifs_bt.html https://www.steg.com.tn/fr/clients_ind/tarifs_bt.html]
+
=== Grid ===
  
The Tunisian electricity tariff system is complex, subsidized and cross-subsidized. On the general low voltage, tariffs depend on the sector of the consumer (residential or non-residential) and the consumption per month in kWh. Tariffs are most heavily subsidized for households whose monthly consumption is below 50, 100 and 200 kWh. These households pay 0.075 TND [0.034 EUR], 0.108 TND [0.049 EUR] and 0.140 TND [0.064 EUR] for each kWh consumed. Households whose consumption surpasses 200 kWh per month have to pay 0.151 TND (0.069 €)/kWh for the first 200 kWh, 0.184 TND (0.084 €)/kWh for the following 100 kWh, 0.280 TND (0.13 €)/kWh for the following 200 kWh, and 0.350 TND (0.16 €) for each kWh above 500 kWh/month. Production costs are thus more than covered in the tranches 301-500 kWh/month and 500+ kWh/month.
+
STEG controls the Tunisian grid and holds a monopoly on electricity transportation and distribution. The grid has three voltages: high (225 kV), medium (150 kV) and low (90 kV). 99.5% of the households have had an access to electricity since 2006. &nbsp;
  
Voltage level / medium voltage
+
The transmission grid is connected to the Algerian grid and, on its Eastern end, to Libya. Regional grid synchronisation tests with the participation of Morocco, Algeria, Tunisia, Libya and Egypt have been carried out but failed so far due to frequent synchronization issues with the Egyptian grid. Furthermore, a 400 kV high voltage sea cable with a capacity of 1,000 MW binding North Africa to Europe via Tunisia and Italy is currently discussed<ref name="http://www.terna.it/default/home_en/the_company/about_terna/terna_group_abroad/growth_abroad/elmed_project.aspx">http://www.terna.it/default/home_en/the_company/about_terna/terna_group_abroad/growth_abroad/elmed_project.aspx</ref>.
  
&nbsp;&nbsp;[https://www.steg.com.tn/fr/clients_ind/tarifs_mt.html https://www.steg.com.tn/fr/clients_ind/tarifs_mt.html]
+
Grid losses are primarily due to maintenance or other incidents. Along with the prolonging of the transmission grid, losses have risen: in 2012 it represented 2,735 GWh<ref name="http://www.iea.org/statistics/statisticssearch/report/?year=2012&country=TUNISIA&product=ElectricityandHeat">http://www.iea.org/statistics/statisticssearch/report/?year=2012&country=TUNISIA&product=ElectricityandHeat</ref>. The growing economy of Tunisia and rise of living standards contributed to a significant increase in the electricity consumption leading to ever more often grid saturation. In addition, some power plants and facilities are out-dated and can no longer cope with the actual load of the network; hence, overload, losses and high voltage drops occur on a regular basis. To address these issues, the&nbsp;»Electricity Distribution Network Rehabilitation and Restructuring Project«&nbsp;has been launched, this should improve the reliability and safety of electricity distribution.
  
There are three to four tariff slots depending on the sector and on the day time. Prices range from 0.088 TND/kWh (0.040 €) to 0.238 TND/kWh (0.109 €). The subsidies no longer apply to cement producers which have paid electricity to its real cost since 2014 (cheapest slot: 0.129 TND (0.059 €)/kWh, most expensive slot 0.311 TND (0.142€)/kWh).
+
[[Tunisia Energy Situation#toc|►Go to Top]]
  
Voltage level / High voltage &nbsp;[https://www.steg.com.tn/fr/clients_ind/tarifs_ht.htmlThis https://www.steg.com.tn/fr/clients_ind/tarifs_ht.htmlThis] represents a tiny share of the market, with only a handsome of subscribers. There are four tariff slots and prices range between 0.111 TND (0.051€)/kWh and 0.233 TND (0.106€)/kWh).
 
<div><br/><div id="ftn1">
 
[[#_ftnref1|[22]]] Bureau des statistiques, Ministère de l’Industrie
 
</div><div id="ftn2">
 
[[#_ftnref2|[23]]] [http://www.anme.nat.tn/fileadmin/user1/doc/DEP/Rapport_final__PST.pdf http://www.anme.nat.tn/fileadmin/user1/doc/DEP/Rapport_final__PST.pdf]
 
</div><div id="ftn3">
 
[[#_ftnref3|[24]]] [http://www.oitsfax.org/files/AApresentationHDR20140323.pdf http://www.oitsfax.org/files/AApresentationHDR20140323.pdf]
 
</div><div id="ftn4">
 
[[#_ftnref4|[25]]] Bureau des statistiques, Ministère de l‘Industrie
 
</div><div id="ftn5">
 
[[#_ftnref5|[26]]] STEG, Rapport annuel 2013
 
</div><div id="ftn6">
 
[[#_ftnref6|[27]]] [http://www.terna.it/default/home_en/the_company/about_terna/terna_group_abroad/growth_abroad/elmed_project.aspx http://www.terna.it/default/home_en/the_company/about_terna/terna_group_abroad/growth_abroad/elmed_project.aspx]
 
</div><div id="ftn7">
 
[[#_ftnref7|[28]]] [http://www.iea.org/statistics/statisticssearch/report/?year=2012&country=TUNISIA&product=ElectricityandHeat http://www.iea.org/statistics/statisticssearch/report/?year=2012&country=TUNISIA&product=ElectricityandHeat]
 
</div></div><div>[[Tunisia_Energy_Situation#toc|►Go to Top]]</div><br/>
 
 
<br/>
 
<br/>
</div></div></div></div></div></div></div></div></div>
 
 
 
= Energy Policy =
 
 
== General Information ==
 
 
National energy policies are divided into four fundamental axes: (1) energy efficiency; (2) development of renewable energies; (3) exploration of conventional and unconventional resources; (4) and diversification of energy sources.
 
 
The results of the National Energy Debate that was carried out between June 2013 and June 2014 by the Ministry of Industry and Energy, reflect the countries energy strategy.
 
  
Exploration and exploitation of conventional and unconventional fossil resources are carried on in order to address the demand and limit importations. Generally speaking, diversity should help protecting Tunisia from the international prices volatility and reduce its import dependency.
+
=== Electricity Prices<br/> ===
  
As for unconventional resources, exploring shale gas potentials is an intensively discussed subject in Tunisia. Shale gas is seen as a potential solution to solve out the current energy deficit, a study carried out in 2011 highlighted &nbsp;the strong Tunisian potential for shale gas. Technical, ecological and economic feasibility must be deeper analysed: therefore, a feasibility study and a profitability analysis must be carried out in the foreseeable future. A first step was taken early 2015 with the launching of a large-scale Strategic Environment Assessment for unconventional fossil resources.
+
'''Low voltage''' ([https://www.steg.com.tn/fr/clients_res/tarif_electricite.html Tarifs as of March 2015])<br/>
  
Nuclear power was regarded as possibly implementable in Tunisia, yet more and more cons have shown up along the way i.e. high investment costs, incompatibility with the current electric park and safety issues. The idea of developing nuclear in Tunisia was thus put aside.
+
The Tunisian electricity tariff system is complex, subsidized and cross-subsidized. On the general low voltage, tariffs depend on the sector of the consumer (residential or non-residential) and the consumption per month in kWh. Tariffs are most heavily subsidized for households whose monthly consumption is below 50, 100 and 200 kWh. These households pay 0.075 TND [0.034 EUR], 0.108 TND [0.049 EUR] and 0.140 TND [0.064 EUR] for each kWh consumed. Households whose consumption surpasses 200 kWh per month have to pay 0.151 TND (0.069 €)/kWh for the first 200 kWh, 0.184 TND (0.084 €)/kWh for the following 100 kWh, 0.280 TND (0.13 €)/kWh for the following 200 kWh, and 0.350 TND (0.16 €) for each kWh above 500 kWh/month. Production costs are thus more than covered in the tranches 301-500.<br/>
  
The potential of coal as a mean of diversification is currently under investigation. At first, it seems to have some hard-hitting pros (e.g. low and stable cost, easy to import and widespread on earth). A feasibly study is still to be carried out, given the needed know-how and technology, coal may only be an option after 2024.
+
'''Medium voltage''' ([https://www.steg.com.tn/fr/clients_ind/tarifs_mt.html Tarifs as of March 2015])<br/>
  
In order to reduce its dependency from Algerian gas, Tunisia needs to diversify its electric mix and extend its interconnections. A gas interconnection with Italy already exists (“Gazoduc”), currently being used to transport Algerian gas to Europe. However this interconnection may be used for imports in future. An electric interconnection with Italy with a 400 kV submarine cable is currently being considered. It may be used for import and export in the future: complementary daily and annual production and consumption profiles of North Africa and Europe can create synergies.
+
There are three to four tariff slots depending on the sector and on the day time. Prices range from 0.088 TND/kWh (0.040 €) to 0.238 TND/kWh (0.109 €). The subsidies no longer apply to cement producers which have paid electricity to its real cost since 2014 (cheapest slot: 0.129 TND (0.059 €)/kWh, most expensive slot 0.311 TND (0.142€)/kWh).<br/>
  
Furthermore, there is a strong need for institutional and budget reforms in the energy sector since the current situation drastically differs from the one 20 years ago. Some of its aspects such as subsidies have become a burden hindering a further development of the whole sector. In November 2014, the Industry Minister M. Ben Naceur called for a drastic reduction for the year 2015. Subsidies should decrease from 1.3 billion Euros (2.7 billion TND) to 0.9 billion Euros (1.96 billion TND) in order to use the saved money in investment projects[[#_ftn1|[29]]]. In 2014, energy prices were raised by approximately 10% in total in order to reduce subsidies. By June 2014, electricity price subsidies for cement producers’ were completely phased out.
+
'''High voltage''' ([https://www.steg.com.tn/fr/clients_ind/tarifs_ht.html Tarifs as of March 2015])&nbsp;<br/>
  
Forecasts from the ANME expected the consumption to double by 2030 without implementation of a comprehensive action, therefore energy efficiency should be further strengthened. Measures since 2000 have brought results: Tunisia has reduced its energy intensity by 20%[[#_ftn2|[30]]].
+
This represents a tiny share of the market, with only a handsome of subscribers. There are four tariff slots and prices range between 0.111 TND (0.051€)/kWh and 0.233 TND (0.106€)/kWh).<br/>
<div><br/><div id="ftn1">
+
<div>[[Tunisia Energy Situation#toc|►Go to Top]]</div>
[[#_ftnref1|[29]]] http://directinfo.webmanagercenter.com/2014/11/30/tunisie-une-augmentation-attendue-de-7-des-prix-de-lelectricite-et-du-gaz-en-2015/
 
</div><div id="ftn2">
 
[[#_ftnref2|[30]]] Brochure 30/30. Stratégie Nationale de maîtrise de l‘énergie. Objectifs, moyens et enjeux. GIZ, juin 2014.
 
</div></div> <br/>
 
 
<br/>
 
<br/>
  
[[Tunisia_Energy_Situation#toc|►Go to Top]]
+
= Energy Policy<br/> =
  
 +
== General Information<br/> ==
  
 +
Exploration and exploitation of conventional and unconventional fossil resources are carried outin order to address the demand and limit importations. Generally speaking, diversity should help protecting Tunisia from the international prices volatility and reduce its import dependency.<br/>
  
== Renewable energy & energy efficiency policies<br/> ==
+
In order to reduce its dependency from Algerian gas, Tunisia needs to diversify its electric mix and extend its interconnections. A gas interconnection with Italy already exists (“Gazoduc”), currently being used to transport Algerian gas to Europe. However this interconnection may be used for imports in future. An electric interconnection with Italy with a 400 kV submarine cable is currently being considered. It may be used for import and export later on: complementary daily and annual production and consumption profiles of North Africa and Europe can create synergies.<br/>
  
 +
Furthermore, there is a strong need for institutional and budget reforms in the energy sector since the current situation drastically differs from the one 20 years ago. Some of its aspects such as subsidies have become a burden hindering a further development of the whole sector. In November 2014, the Industry Minister M. Ben Naceur called for drastic cuts for the year 2015. Subsidies should decrease from 1.3 billion Euros (2.7 billion TND) to 0.9 billion Euros (1.96 billion TND) in order to use the saved money in investment projects<ref name="http://directinfo.webmanagercenter.com/2014/11/30/tunisie-une-augmentation-attendue-de-7-des-prix-de-lelectricite-et-du-gaz-en-2015/">http://directinfo.webmanagercenter.com/2014/11/30/tunisie-une-augmentation-attendue-de-7-des-prix-de-lelectricite-et-du-gaz-en-2015/</ref>. In 2014, energy prices were raised by approximately 10% in total in order to reduce subsidies. By June 2014, electricity price subsidies for cement producers’ were completely phased out.
  
=== Strategies and Objectives for Renewable Energies<br/> ===
+
Forecasts from the ANME expected the consumption to double by 2030 without implementation of a comprehensive action, therefore energy efficiency should be further strengthened. Measures since 2000 have brought results: Tunisia has reduced its energy intensity by 20%<ref name="ANME, Stratégie Nationale de maîtrise de l‘énergie. Objectifs, moyens et enjeux. ">ANME, Stratégie Nationale de maîtrise de l‘énergie. Objectifs, moyens et enjeux. </ref>.
  
Energy efficiency and renewable energies have been important topics in major publication over the last decade. The law No. 2004-72 on the rational use of energy defines wise use of energy as a national priority and as the most important element of a sustainable development policy. It states three principal goals: energy saving, renewable energy promotion and creation of new forms of energy, that favour costs’ reduction as well as the National economy and the environment.
+
[[Tunisia Energy Situation#toc|►Go to Top]]
  
The Tunisian Solar Plan, a renewable energy development plan elaborated by the ANME but not officially adopted by parliament or government, foresees a 30% share of renewables in the electricity mix by 2030. This corresponds to an additional totally capacity of 3 GW and an overall investment of 4.75 billion euro.[[#_ftn1|[33]]] Figure 3 shows the development goals by technology.
+
<br/>
  
The Tunisian Solar Plan was updated in 2014, and a new update is planned for 2015.<br/>
+
<br/>
[[File:Installed Capacity RE in TUN.png|none|500pxpx]]<br/>
 
The National Energy Conservation Action Plan[[#_ftn2|[34]]] consists of three phases: (1) awareness raising, first concrete and grass-root actions were taken under two programs, (2000-2013) that contributed to an annual decrease of 2% in energy intensity; (2) continued implementation and voluntary investment via the mobilization of industry, construction and transport (audits, cogeneration, lighting, household appliances, buildings, transport); (3) implementation of large scale projects in order to reach the 30-30 goals ‒ 30% of electricity shall be produced by renewable sources by 2030 ‒ (2020-2030).
 
  
The Action Plan also foresees an independent regulator in the electricity market.
 
  
 +
== Renewable Energy Policy<br/> ==
  
=== Legal Conditions and Support Schemes for Renewable Energies<br/> ===
+
&nbsp;For more info, see [[Analysis of the Regulatory Framework for Renewable Energy in Tunisia|Analysis of the Regulatory Framework for Renewable Energy in Tunisia]]<br/>
  
&nbsp;
+
<span style="font-size: 13.6px; line-height: 20.4px; background-color: rgb(255, 255, 255);">A new '''law on renewable energies''' was adopted by Parliament in May 2015. The objective of this law is to promote private investment in renewables to contribute to the 30/30 objective of the Tunisian Solar Plan. The law foresees three project development regimes: (1) self-consumption, (2a) complete sale of electricity to the utility STEG (feed-in tarifs, projects under 10 MW for PV and 30 MW for wind), (2b) complete sale of electricity to the utility STEG (tenders, projects above 10 MW for PV and 30 MW for wind), (3) electricity export. The implementation bylaws of the RE law were approved by the Council of Ministers in July 2016. As of August 2016, the new regulatory framework is not yet being implemented.&nbsp;</span>
  
For more info, see [https://energypedia.info/wiki/Analysis_of_the_Regulatory_Framework_for_Renewable_Energy_in_Tunisiav https://energypedia.info/wiki/Analysis_of_the_Regulatory_Framework_for_Renewable_Energy_in_Tunisiav]
+
The '''Tunisian Solar Plan''', a renewable energy development plan elaborated by the ANME but not officially adopted by parliament or government, foresees a 30% share of renewables in the electricity mix by 2030. This corresponds to an additional totally capacity of 3 GW and an overall investment of 4.75 billion euro<ref name="http://www.anme.nat.tn/fileadmin/user1/doc/DEP/Rapport_final__PST.pdf">http://www.anme.nat.tn/fileadmin/user1/doc/DEP/Rapport_final__PST.pdf</ref>. Figure 3 shows the development goals by technology.The Tunisian Solar Plan was updated in 2014, and a new update is planned for 2015.<br/>
  
Support schemes that promote the implementation of renewable energies and energy efficiency measures available in Tunisia are twofold: direct financial incentives and tax incentives. Capital subsidies and grants (allocated by the Energy Transition Fund FTE or the national utility STEG) are available. Support is also available for energy audits and implementation of energy efficiency measures. Tax incentives for energy conservation and renewable energy projects include customs tariff concessions for renewable energy and energy efficiency equipment, and VAT exemptions and concessions for locally manufactured products for energy efficiency or renewable energies[[#_ftn3|[35]]]. However, regulatory conditions may change in 2015 since a new law on renewable energies is expected to be adopted by parliament before the summer 2015. It is meant to open the energy market to competition, including investors. This law entails three key aspects:
+
<u>Figure 3: Foreseen RE Installed Capacity in Tunisia in 2020 and 2030</u><ref name="ANME, Stratégie nationale de maîtrise de l'énergie. Objectifs, moyens et enjeux. p. 23">ANME, Stratégie nationale de maîtrise de l'énergie. Objectifs, moyens et enjeux. p. 23</ref><br/>[[File:Installed Capacity RE in TUN.png|frame|left|500px|Installed Capacity RE in TUN.png|alt=Installed Capacity RE in TUN.png]]<br/>
 +
<div style="clear: both">The law No. 2004-72 on the rational use of energy defines wise use of energy as a national priority and as the most important element of a sustainable development policy. It states three principal goals: energy saving, renewable energy promotion and creation of new forms of energy, that favour costs’ reduction as well as the National economy and the environment.<br/></div>
 +
[[Tunisia Energy Situation#toc|►Go to Top]]<br/>
  
*A national Energy plan shall be designed within the next 5 years.
+
<br/>
*11 implementing rules shall be written within 6 months following the vote. They are mean to precise the following aspect of the law: procedures, creation and implementation of an independent regulator (structure and dutties).
 
  
The “feed-in tariffs” shall be determined by the Minister of Industry.
 
  
&nbsp;<br/>
+
== Energy Efficiency Policy<br/> ==
  
As of today electricity generation condition remain unchanged and are the following: STEG &nbsp;holds a monopoly in various areas of the electricity sector including transmission, distribution, marketing and the purchase and sale of electricity.
+
The National Energy Conservation Action Plan<ref name="http://maghrenov.eu/file/download/2878/Strategie+Nationale+de+Maitrise+de+l%27Energie_web.pdf">http://maghrenov.eu/file/download/2878/Strategie+Nationale+de+Maitrise+de+l%27Energie_web.pdf</ref> consists of three phases: (1) awareness raising, first concrete and grass-root actions were taken under two programs, (2000-2013) that contributed to an annual decrease of 2% in energy intensity; (2) continued implementation and voluntary investment via the mobilisation of industry, construction and transport (audits, cogeneration, lighting, household appliances, buildings, transport); (3) implementation of large scale projects in order to reach the 30-30 goals ‒ 30% of electricity shall be produced by renewable sources by 2030 ‒ (2020-2030).<br/>
  
In terms of electricity generation, on the other hand, the regulatory and institutional framework governing electricity production has been opened up to the private sector. STEG no longer holds a monopoly in the strict sense of the term because the market is now open to:
+
The Action Plan also foresees an independent regulator in the electricity market.<br/>
 
 
1. Independent Power Producers (IPP);<br/>
 
 
 
Since it does not exclude any particular energy source, the IPP scheme (Law No. 96-27) can theoretically be transferred to renewable energies. In reality, however, only two (non-renewable) IPPs have been realized in Tunisia between 1996 (the adoption of the IPP scheme) and 2015[[#_ftn4|[36]]]: Carthage Power Company (480 MW), Société d’El Bibane (SEEB, 27 MW).
 
 
 
&nbsp;<u>2. Autoproduction/ Net Metering</u><br/>
 
 
 
This scheme is currently open only to producers whose principal activity is related to an existing industrial, agricultural or tertiary business. As such, it does not provide development opportunities for a third party developer with no link to the producer.
 
 
 
<u>3. PROSOL Thermique</u>
 
 
 
The PROSOL programme of 1995 realized 300 m<sup>2</sup> solar water heaters (SWH) thanks to GEF (Global Environment Fund) funding. In 2004 the PROSOL programme was relaunched with the help of the Italian government and UNEP. It combines a tax incentive mechanism, an investment subsidy and a credit via STEG. The residential sector has seen very rapid growth in the installation of SWH installations (increasing from 12m²/10,000 inhabitants in 2004 to 40m²/10,000 inhabitants in 2010).[[#_ftn5|[37]]]
 
 
 
&nbsp;<u>4. PROSOL-ELEC[[#_ftn6|<u>[38]]]</u>&lt;/u&gt;
 
 
 
PROSOL-ELEC is a promotion scheme for small-scale (1 or 2 kWp) photovoltaic installations inspired by the PROSOL programme.
 
 
 
PROSOL ELEC, which was launched in 2010, contributed to the installation of a total PV capacity of 6 MWp until 2014.[[#_ftn7|[39]]]
 
<div><br/><div id="ftn1">
 
[[#_ftnref1|[33]]] [http://www.anme.nat.tn/fileadmin/user1/doc/DEP/Rapport_final__PST.pdf http://www.anme.nat.tn/fileadmin/user1/doc/DEP/Rapport_final__PST.pdf]
 
</div><div id="ftn2">
 
[[#_ftnref2|[34]]] [http://maghrenov.eu/file/download/2878/Strategie+Nationale+de+Maitrise+de+l'Energie_web.pdf http://maghrenov.eu/file/download/2878/Strategie+Nationale+de+Maitrise+de+l%27Energie_web.pdf]
 
</div><div id="ftn3">
 
[[#_ftnref3|[35]]] [http://www.unep.fr/shared/docs/publications/RE_GSR_2009_Update.pdf http://www.unep.fr/shared/docs/publications/RE_GSR_2009_Update.pdf]
 
</div><div id="ftn4">
 
[https://energypedia.info/index.php?title=Tunisia_Energy_Situation&action=edit&mode=wysiwyg&section=15#_ftn4 [36]] Cécile Cessac, Analyse du cadre réglementaire de l’accès au réseau des producteurs d’électricité à partir des énergies renouvelables en Tunisie.
 
</div><div id="ftn5">
 
[[#_ftnref5|[37]]] Ibid.
 
</div><div id="ftn6">
 
[[#_ftnref6|[38]]] [https://www.steg.com.tn/fr/prosol_elec/presentation.html https://www.steg.com.tn/fr/prosol_elec/presentation.html]
 
</div><div id="ftn7">
 
[[#_ftnref7|[39]]] [https://energypedia.info/wiki/Enabling_PV_in_the_MENA_Region https://energypedia.info/wiki/Enabling_PV_in_the_MENA_Region]<br/>
 
</div></div>
 
[[Tunisia_Energy_Situation#toc|►Go to Top]]
 
  
 +
[[Tunisia Energy Situation#toc|►Go to Top]]<br/>
  
 +
<br/>
  
= Key actors in the Energy Sector<br/> =
+
= Key Actors in the Energy Sector<br/> =
  
 
== Governmental Bodies and Agencies<br/> ==
 
== Governmental Bodies and Agencies<br/> ==
Line 705: Line 605:
 
'''DGE''' (Direction Générale de l’Energie, Directorate-General for Energy) is a sub-department of the Ministry of Industry, Energy and Mines. It is designed to conceive, coordinate and implement the national energy policy and to draft energy action plans and energy management programs.<br/>
 
'''DGE''' (Direction Générale de l’Energie, Directorate-General for Energy) is a sub-department of the Ministry of Industry, Energy and Mines. It is designed to conceive, coordinate and implement the national energy policy and to draft energy action plans and energy management programs.<br/>
  
'''STEG''' (Société Tunisienne de l’Electricité et du Gaz, Tunisian Company for Electricity and Gas) is the national energy producer, TSO and supplier. The STEG was created by law 62-8 in 1962[[#_ftn1|[1]]].<br/>
+
'''STEG''' (Société Tunisienne de l’Electricité et du Gaz, Tunisian Company for Electricity and Gas) is the national energy producer, TSO and supplier. The STEG was created by law 62-8 in 1962<ref name="https://www.steg.com.tn/fr/index.html">https://www.steg.com.tn/fr/index.html</ref>.<br/>
  
'''ETAP''' (Entreprise Tunisienne des Activités Pétrolières, Tunisian Refining Industry Company). Created in 1972, this stated-owned company plans oil and gas explorations and manage this national gas and petroleum wealth[[#_ftn2|[2]]].<br/>
+
'''ETAP''' (Entreprise Tunisienne des Activités Pétrolières, Tunisian Refining Industry Company). Created in 1972, this stated-owned company plans oil and gas explorations and manage national gas and petroleum wealth<ref name="http://www.etap.com.tn/">http://www.etap.com.tn/</ref>.<br/>
  
'''ANME''' (Agence Nationale de la Maîtrise de l’Energie, National Agency for Energy Management). Created in 1985, this agency specialised in energy management supports the Industry Ministry along the energy transition[[#_ftn3|[3]]].<br/>
+
'''ANME''' (Agence Nationale de la Maîtrise de l’Energie, National Agency for Energy Management). Created in 1985, this agency specialised in energy management supports the Industry Ministry on energy transition<ref name="www.anme.nat.tn/">www.anme.nat.tn/</ref>.<br/>
  
'''AGIL''' (Société Nationale de Distribution des Pétroles, National Company of Oil Distribution) shares the oil distribution market with some private companies (s.a. Total, Shell, BP, etc.)[[#_ftn4|[4]]].<br/>
+
'''AGIL''' (Société Nationale de Distribution des Pétroles, National Company of Oil Distribution) shares the oil distribution market with some private companies (s.a. Total, Shell, BP, etc.)<ref name="http://www.agil.com.tn/">http://www.agil.com.tn/</ref>.<br/>
  
 
Fond de Tranisition Energétique (Energy Transition Fund, FTE), until 2014 Fond National de Maîtrise de l’Energie (National Fund for Energy Management), created in 2005, it helps ANME to provide renewable projects with a financial support (among other subsidies)<br/>
 
Fond de Tranisition Energétique (Energy Transition Fund, FTE), until 2014 Fond National de Maîtrise de l’Energie (National Fund for Energy Management), created in 2005, it helps ANME to provide renewable projects with a financial support (among other subsidies)<br/>
  
'''STEG Energies Renouvelables''', created in 2010, this is a branch of the Tunisian Company for Electricity and Gas fully devoted to renewable energies[[#_ftn5|[5]]].<br/>
+
'''STEG Energies Renouvelables''', created in 2010, this is a branch of the Tunisian Company for Electricity and Gas fully devoted to renewable energies<ref name="http://www.steg-er.com.tn/">http://www.steg-er.com.tn/</ref>.<br/>
 +
 
 +
[[Tunisia Energy Situation#toc|►Go to Top]]
 +
 
 +
<br/>
  
 
== Utilities<br/> ==
 
== Utilities<br/> ==
  
STEG is the national utility, monopoly.
+
STEG is the national utility, it holds a monopoly.
 +
 
 +
<br/>
  
 
== Others ==
 
== Others ==
  
Currently only two IPP generate electricity:
+
Currently only two IPPs generate electricity:
  
#Carthage Power Company (CPC): Radès II Power Station (natural gas fired plant, total capacity 480 MW) started operation in 2002 under the terms of a build own operate (BOO) agreement and by 2010 was responsible for 21% of national production.[[#_ftn6|[6]]]
+
#Carthage Power Company (CPC): Radès II Power Station (natural gas fired plant, total capacity 480 MW) started operation in 2002 under the terms of a build own operate (BOO) agreement and by 2010 was responsible for 21% of national production<ref name="http://www.carthagepower.com.tn/en/rades.php">http://www.carthagepower.com.tn/en/rades.php</ref>.
#Societe d’Electricite d’El Bibane (SEEB): Tunisia’s second IPP, two 13.5 MW gas turbines that went online in 2003.[[#_ftn7|[7]]]
+
#Societe d’Electricite d’El Bibane (SEEB): Tunisia’s second IPP, two 13.5 MW gas turbines that went on line in 2003<ref name="http://www.industcards.com/cc-tunisia.htm">http://www.industcards.com/cc-tunisia.htm</ref>.
<div><br/>
+
<div>
 
----
 
----
<div id="ftn1">
+
</div>
[[#_ftnref1|[1]]] https://www.steg.com.tn/fr/index.html
+
<br/>
</div><div id="ftn2">
+
 
[[#_ftnref2|[2]]] http://www.etap.com.tn/
+
= Energy Cooperation<br/> =
</div><div id="ftn3">
+
 
[[#_ftnref3|[3]]] <cite>www.anme.nat.tn/</cite>
 
</div><div id="ftn4">
 
[[#_ftnref4|[4]]] http://www.agil.com.tn/
 
</div><div id="ftn5">
 
[[#_ftnref5|[5]]] http://www.steg-er.com.tn/
 
</div><div id="ftn6">
 
[[#_ftnref6|[6]]] http://www.carthagepower.com.tn/en/rades.php
 
</div><div id="ftn7">
 
[[#_ftnref7|[7]]] [http://www.industcards.com/cc-tunisia.htm http://www.industcards.com/cc-tunisia.htm]<br/>
 
</div></div>
 
  
  
  
= Energy Cooperation<br/> =
 
  
  
 
== Bilateral Energy Cooperation with Germany<br/> ==
 
== Bilateral Energy Cooperation with Germany<br/> ==
  
See also: German-Tunisian Energy Partnership and [https://energypedia.info/wiki/Developing_the_Solar_Energy_Market_in_Tunisia_(Project_DMS) DMS]<br/>
+
See also: [[German-Tunisian Energy Partnership|German-Tunisian Energy Partnership]] and [[Developing the Solar Energy Market in Tunisia (Project DMS)|DMS]]<br/>
 +
 
 +
<br/>
  
[[Tunisia_Energy_Situation#toc|►Go to Top]]
+
*[https://www.ptb.de/cms/en.html PTB] project "[[:File:PTB project Tunisia PV 95304 EN.pdf|Strengthening Quality Infrastructure for Photovoltaics]]" (English)
 +
*Projet PTB "[[:File:Projet PTB Tunisie PV 95304 FR.pdf|Renforcement de l'infrastructure qualité pour l'énergie photovoltaïque]]" (Français)
 +
*PTB project "[[:File:PTB_project_Maghreb_Solar_95313_EN.pdf|Strengthening Quality Infrastructure for Solar Thermal Energy]]" in the Maghreb countries
  
  
Line 762: Line 661:
  
 
[[Tunisia Energy Situation#toc|►Go to Top]]
 
[[Tunisia Energy Situation#toc|►Go to Top]]
 +
 +
<br/>
  
 
= References =
 
= References =
Line 771: Line 672:
 
[[Category:Tunisia]]
 
[[Category:Tunisia]]
 
[[Category:MENA_(Middle_East_and_North_Africa)]]
 
[[Category:MENA_(Middle_East_and_North_Africa)]]
[[Category:Country_Energy_Situation]]
 

Latest revision as of 10:21, 11 September 2020

Tunisia
Flag of Tunisia.png
Location _______.png

Capital:

Tunis

Region:

Coordinates:

34.0000° N, 9.0000° E

Total Area (km²): It includes a country's total area, including areas under inland bodies of water and some coastal waterways.

163,610

Population: It is based on the de facto definition of population, which counts all residents regardless of legal status or citizenship--except for refugees not permanently settled in the country of asylum, who are generally considered part of the population of their country of origin.

12,200,431 (2023)

Rural Population (% of total population): It refers to people living in rural areas as defined by national statistical offices. It is calculated as the difference between total population and urban population.

29 (2023)

GDP (current US$): It is the sum of gross value added by all resident producers in the economy plus any product taxes and minus any subsidies not included in the value of the products. It is calculated without making deductions for depreciation of fabricated assets or for depletion and degradation of natural resources.

48,529,595,417 (2023)

GDP Per Capita (current US$): It is gross domestic product divided by midyear population

3,977.70 (2023)

Access to Electricity (% of population): It is the percentage of population with access to electricity.

100.00 (2022)

Energy Imports Net (% of energy use): It is estimated as energy use less production, both measured in oil equivalents. A negative value indicates that the country is a net exporter. Energy use refers to use of primary energy before transformation to other end-use fuels, which is equal to indigenous production plus imports and stock changes, minus exports and fuels supplied to ships and aircraft engaged in international transport.

36.20 (2014)

Fossil Fuel Energy Consumption (% of total): It comprises coal, oil, petroleum, and natural gas products.

88.87 (2014)

Source: World Bank



Introduction

Tunisia is a small country located in Northern Africa sharing borders with Algeria and Libya. The country entails the Northern reaches of the Sahara desert and the Eastern end of the Atlas Mountains and has a Mediterranean coast. Therefore, the country has a bright diversity on climate and biosphere.

►Go to Top

Energy Situation

Since 1990, the Tunisian primary energy consumption has increased in a roughly linear way, with approximately 4,500 ktoe in 1990, 6,700 ktoe in 2000 and 8,300 ktoe in 2010 (without biomass). As shown in Figure 1, the sharpest increase is to be noticed in the gas sector, which represented 55 % of the primary energy supply in 2012. As a result, the share of oil, including crude oil and petroleum products, has slightly decreased. The share of coal and peat has always been minimal and now reached zero.  The amount of biofuel and waste slightly increased (58 PJ in 2011), and currently represents 15 % of the primary energy supply. In 2014, primary energy consumption was about 9,200 ktoe[1] (i.e. 107,000 GWh or 385 PJ), without biomass.

Figure 1: Primary Energy Consumption since 1990[2]

Primary En Consumption TUN.png

Energy Data

Primary Energy Consumption

Total Primary Energy Consumption in 2014[3]* (without biomass, PV, SWH, process heat, self-consumption of oil fields, consumption of natural gas pipeline compressor stations)

 

 

 

 

Energy Source

in ktoe

in GWh

in PJ

in %

Crude Oil and Oil Products (2014)*

4,232

49,218

177,185

46%

Natural Gas (2014)*

4,876

56,708

204,148

53%

Electricity from Renewables (2014)*

92

3,852

1,070

1%

SUBTOTAL (2014)*

9,200

106,996

385,186

100%

 

 

 

 

 

Biomass (2011)

1,390

 

58

 

Geothermal, Solar etc. (2011)

9

 

0.38

 

(*) Data not yet officially published

►Go to Top

Energy balance, import and export

Tunisia's energy production, consumption and import/export balance in 2012[4]

Crude Oil  (ktoe)

Natural Gas (ktoe)

Total Production

3,522

2,563

Imports

1,139

2,480

Exports

 -2,741

-0

Total consumption

1,946

5,043

% of net imported resources in the total consumption

69

49


As shown in Figure 2, the Tunisian energy situation has drastically changed in the last two decades. Resulting from the economic development, primary energy demand has risen in a significantly steeper way than production. Consumption nearly doubled within 20 years between 1992 and 2012 from 4,500 ktoe to 8,500 ktoe. Between 1990 and 2000, consumption increased at a rate of 6.2%/year. Between 2000 and 2005, demand grew by 4.6%/year and between 2005 and 2009, annual demand growth slowed to 3.7%, mainly due to energy efficiency measures[5].  In 2014, primary energy consumption was 9,200 ktoe (without biomass), of which 46% was provided by oil products, 53% was provided by natural gas and 1% by renewable energies[3].

Oil production decreased between 1980 and 2012 from 120,000 to 67,000 barrels per day. Gas production, however, increased from 20 billion cubic feet in the early 1980s to 68 billion cubic feet in 2012. An overall increase in domestic primary energy production from 5,400 ktoe in 1900 to 7,000 ktoe in 2012 could not follow the sharp rise in demand.

Hence the unbalanced consumption illustrated in Figure 2. Tunisia, a net energy exporter until 2000, has become a net importer. In 2014, 49% of natural gas consumption (2,300 ktoe) was covered by domestic production. The remaining 51% (2,400 ktoe) was imported from Algeria[6].

Figure 2: From a Net-Exporter to a Net-Importer[7]

TUN Net Importer.png
Becoming a net importer implies a rise in energy prices since the mid-2000s (natural gas is today 8 times more expensive than it was in 2000) and a weak national currency (Dinar, TND) (2010: 1.8 TND=1.0 €; 2012: 2.0 TND=1.0 €; 2015:2.2 TND=1.0 €) makes the imports more expensive. Thus, expenses for energy represented 13.7% of GDP in 2012 − with expenses on energy import representing 16.8% of the global imports[8].

►Go to Top

Subsidies

The energy sector is heavily subsidised in Tunisia. Subsidies for natural gas as well as electricity started a sharp increase in the early 2000s. In 2012, energy subsidies amounted to 5,600 million TND (3,100 million EUR), i.e. 20% of public budget or 9% of GDP. Whereas energy subsidies only represented 3% of GDP in 2005. This rise in subsidies is not sustainable for the state and has several negative effects on public spending such as a decreasing budget for public investments[9]. Subsidising procedures remain non-transparent. The subsidy system is composed of indirect and direct subsidies. Indirect subsidies are the difference between supply costs of crude oil and gas for the State, and the selling prices to the two public operators STIR for oil and STEG for natural gas. Direct subsidies are subsidies made ​​directly by the State to STIR and STEG in order to offset their deficits[6].  

As for electricity, average retail prices (0.14 TND/kWh in 2012) are significantly lower than average production costs for the State (0.26 TND/kWh in 2012). The discrepancies between average production cost and average retail price are even larger for natural gas[6].

►Go to Top


Renewable Energy

Currently, renewable energy plays a minor role in the energy supply.The use of solar energy for thermal purposes is widespread in Tunisia and can be regarded as a success story. Since its launch in 2005, the ANME program “PROSOL THERMIQUE”, meant to promote the installation of solar water heaters, has led to an installed capacity of 487,853 m2 in 2012[10].

Regarding grid-connected renewables, the total installed capacity of renewable energy was an estimated of 312 MW in early 2016 (245 MW of wind energy, 62 MW of hydropower and 25 MW of PV), that was 6% of the total capacity[3]. In terms of electricity production this meant 3% of this an annual production in 2013: 2.6% (357.8 GWh) from wind turbines and 0.4% (60.1 GWh) from hydropower[11].

There are two large wind parks in Tunisia, both operated by state utility STEG, one in the region of Bizerte in Metline and Kechabta  with a capacity of 190 MW operational since 2012; and one in the region of Sidi Daoud, with a capacity of 55 MW, built in 3 phases between 2000 and 2009[6].

 As for photovoltaics, there was a total capacity of 25 MW as of early 2016, mostly small-scale private installations most of whose capacity ranges between 1 kW and 10 kW. In low voltage, in the residential sector the capacities range from 1 kW to 17 kW and in the commercial sector capacities are between 10 and 30 kW. In medium voltage, capacities in commercial sector range between 25 and 100 kW[12]. As of early 2015, there were only three operational PV installations with a capacity of at least 100 kW: a 149 kWp installation in Sfax[13], a 211 kWp installation operated by the Tunisian potable water supply company SONEDE and a 100 kWp installation in the region of Korba[14], both connected to the medium voltage, and realized by Tunisian installer companies.

The first large scale solar power plant of a 10 MW capacity, co-financed by the German development bank KfW and the EU's Neighbourhood Investment Facility (NIF) and implemented by STEG, is due 2018 in Tozeur[15].

Regarding the off-grid use of renewable energies, 11,000 decentralised PV systems have been installed[13].


Electricity

Installed Capacity and Generation

The installed capacity was of 4,799 MW in 2014[1] ‒ with the biggest share (4,492 MW/94%) provided by natural gas fired thermal power stations. The 6% left are divided between hydroelectric power (62 MW as of 2014) and wind generating plants (245 MW as of 2014[16]). Electricity is generated almost exclusively from combustible fossil fuels: 93 % natural gas, 7 % heavy fuel with only a tiny share left to renewables (3% in 2013[11]).

In 2014, the state-owned company, STEG, remained the major electricity producer, supplying 86% of the demand, followed by an IPP, CPC (Carthage Power Company) which produced 10% of the consumed electricity. The last 4% are produced by small scale producers for their own needs (e.g. industries).  

 Installed power plant capacity in MW (excluding small scale PV)[3]

Type of Power Plant

2013

2014*

Share 2014 (%)

Thermal (steam) power plant

1,040

1,040

24

Combined-cycle gas turbine

789

1,209

28

Gas turbine

1,772

1,779

41

Hydropower

62

62

1

Wind power

245

245

6

STEG total

3,908

4,335

100

IPPs

471

471

-

Total capacity, national

4,379

4,806

-

(*)Data not yet officially published

►Go to Top


Consumption

The peak load in 2012 was 3 353 MW and in 2013, due to more favorable climatic conditions, 3 144 MW.

In Tunisia 46% of the electricity was consumed on the low voltage level, 45% on the medium voltage and 9% on the high voltage level.

Electricity consumption of individual sectors in 2013[17]

GWh

%

Industry (Medium and High Voltage)

4 909

34

Transport & communication (Medium and High Voltage)

311

2

Tourism (Medium and High Voltage)

567

4

Service (Medium and High Voltage)

891

6

Agricultural pump sets (Medium and High Voltage)

556

4

Pumping stations (water, sanitation service) (Medium and High Voltage)

563

4

Low voltage

6 521

45

'Total'1

14 380

100

1Total may not add up due to rounding.

The gas consumption has marked a steep increase (5,344 Ktep in 2013) and 72.5% of its production is used for electricity consumption, 7.1% for the industry sector and 20% for the residential and tertiary sectors.

►Go to Top



Grid

STEG controls the Tunisian grid and holds a monopoly on electricity transportation and distribution. The grid has three voltages: high (225 kV), medium (150 kV) and low (90 kV). 99.5% of the households have had an access to electricity since 2006.  

The transmission grid is connected to the Algerian grid and, on its Eastern end, to Libya. Regional grid synchronisation tests with the participation of Morocco, Algeria, Tunisia, Libya and Egypt have been carried out but failed so far due to frequent synchronization issues with the Egyptian grid. Furthermore, a 400 kV high voltage sea cable with a capacity of 1,000 MW binding North Africa to Europe via Tunisia and Italy is currently discussed[18].

Grid losses are primarily due to maintenance or other incidents. Along with the prolonging of the transmission grid, losses have risen: in 2012 it represented 2,735 GWh[19]. The growing economy of Tunisia and rise of living standards contributed to a significant increase in the electricity consumption leading to ever more often grid saturation. In addition, some power plants and facilities are out-dated and can no longer cope with the actual load of the network; hence, overload, losses and high voltage drops occur on a regular basis. To address these issues, the »Electricity Distribution Network Rehabilitation and Restructuring Project« has been launched, this should improve the reliability and safety of electricity distribution.

►Go to Top


Electricity Prices

Low voltage (Tarifs as of March 2015)

The Tunisian electricity tariff system is complex, subsidized and cross-subsidized. On the general low voltage, tariffs depend on the sector of the consumer (residential or non-residential) and the consumption per month in kWh. Tariffs are most heavily subsidized for households whose monthly consumption is below 50, 100 and 200 kWh. These households pay 0.075 TND [0.034 EUR], 0.108 TND [0.049 EUR] and 0.140 TND [0.064 EUR] for each kWh consumed. Households whose consumption surpasses 200 kWh per month have to pay 0.151 TND (0.069 €)/kWh for the first 200 kWh, 0.184 TND (0.084 €)/kWh for the following 100 kWh, 0.280 TND (0.13 €)/kWh for the following 200 kWh, and 0.350 TND (0.16 €) for each kWh above 500 kWh/month. Production costs are thus more than covered in the tranches 301-500.

Medium voltage (Tarifs as of March 2015)

There are three to four tariff slots depending on the sector and on the day time. Prices range from 0.088 TND/kWh (0.040 €) to 0.238 TND/kWh (0.109 €). The subsidies no longer apply to cement producers which have paid electricity to its real cost since 2014 (cheapest slot: 0.129 TND (0.059 €)/kWh, most expensive slot 0.311 TND (0.142€)/kWh).

High voltage (Tarifs as of March 2015

This represents a tiny share of the market, with only a handsome of subscribers. There are four tariff slots and prices range between 0.111 TND (0.051€)/kWh and 0.233 TND (0.106€)/kWh).


Energy Policy

General Information

Exploration and exploitation of conventional and unconventional fossil resources are carried outin order to address the demand and limit importations. Generally speaking, diversity should help protecting Tunisia from the international prices volatility and reduce its import dependency.

In order to reduce its dependency from Algerian gas, Tunisia needs to diversify its electric mix and extend its interconnections. A gas interconnection with Italy already exists (“Gazoduc”), currently being used to transport Algerian gas to Europe. However this interconnection may be used for imports in future. An electric interconnection with Italy with a 400 kV submarine cable is currently being considered. It may be used for import and export later on: complementary daily and annual production and consumption profiles of North Africa and Europe can create synergies.

Furthermore, there is a strong need for institutional and budget reforms in the energy sector since the current situation drastically differs from the one 20 years ago. Some of its aspects such as subsidies have become a burden hindering a further development of the whole sector. In November 2014, the Industry Minister M. Ben Naceur called for drastic cuts for the year 2015. Subsidies should decrease from 1.3 billion Euros (2.7 billion TND) to 0.9 billion Euros (1.96 billion TND) in order to use the saved money in investment projects[20]. In 2014, energy prices were raised by approximately 10% in total in order to reduce subsidies. By June 2014, electricity price subsidies for cement producers’ were completely phased out.

Forecasts from the ANME expected the consumption to double by 2030 without implementation of a comprehensive action, therefore energy efficiency should be further strengthened. Measures since 2000 have brought results: Tunisia has reduced its energy intensity by 20%[21].

►Go to Top




Renewable Energy Policy

 For more info, see Analysis of the Regulatory Framework for Renewable Energy in Tunisia

A new law on renewable energies was adopted by Parliament in May 2015. The objective of this law is to promote private investment in renewables to contribute to the 30/30 objective of the Tunisian Solar Plan. The law foresees three project development regimes: (1) self-consumption, (2a) complete sale of electricity to the utility STEG (feed-in tarifs, projects under 10 MW for PV and 30 MW for wind), (2b) complete sale of electricity to the utility STEG (tenders, projects above 10 MW for PV and 30 MW for wind), (3) electricity export. The implementation bylaws of the RE law were approved by the Council of Ministers in July 2016. As of August 2016, the new regulatory framework is not yet being implemented. 

The Tunisian Solar Plan, a renewable energy development plan elaborated by the ANME but not officially adopted by parliament or government, foresees a 30% share of renewables in the electricity mix by 2030. This corresponds to an additional totally capacity of 3 GW and an overall investment of 4.75 billion euro[16]. Figure 3 shows the development goals by technology.The Tunisian Solar Plan was updated in 2014, and a new update is planned for 2015.

Figure 3: Foreseen RE Installed Capacity in Tunisia in 2020 and 2030[22]

Installed Capacity RE in TUN.png
Installed Capacity RE in TUN.png


The law No. 2004-72 on the rational use of energy defines wise use of energy as a national priority and as the most important element of a sustainable development policy. It states three principal goals: energy saving, renewable energy promotion and creation of new forms of energy, that favour costs’ reduction as well as the National economy and the environment.

►Go to Top



Energy Efficiency Policy

The National Energy Conservation Action Plan[23] consists of three phases: (1) awareness raising, first concrete and grass-root actions were taken under two programs, (2000-2013) that contributed to an annual decrease of 2% in energy intensity; (2) continued implementation and voluntary investment via the mobilisation of industry, construction and transport (audits, cogeneration, lighting, household appliances, buildings, transport); (3) implementation of large scale projects in order to reach the 30-30 goals ‒ 30% of electricity shall be produced by renewable sources by 2030 ‒ (2020-2030).

The Action Plan also foresees an independent regulator in the electricity market.

►Go to Top


Key Actors in the Energy Sector

Governmental Bodies and Agencies

DGE (Direction Générale de l’Energie, Directorate-General for Energy) is a sub-department of the Ministry of Industry, Energy and Mines. It is designed to conceive, coordinate and implement the national energy policy and to draft energy action plans and energy management programs.

STEG (Société Tunisienne de l’Electricité et du Gaz, Tunisian Company for Electricity and Gas) is the national energy producer, TSO and supplier. The STEG was created by law 62-8 in 1962[24].

ETAP (Entreprise Tunisienne des Activités Pétrolières, Tunisian Refining Industry Company). Created in 1972, this stated-owned company plans oil and gas explorations and manage national gas and petroleum wealth[25].

ANME (Agence Nationale de la Maîtrise de l’Energie, National Agency for Energy Management). Created in 1985, this agency specialised in energy management supports the Industry Ministry on energy transition[26].

AGIL (Société Nationale de Distribution des Pétroles, National Company of Oil Distribution) shares the oil distribution market with some private companies (s.a. Total, Shell, BP, etc.)[27].

Fond de Tranisition Energétique (Energy Transition Fund, FTE), until 2014 Fond National de Maîtrise de l’Energie (National Fund for Energy Management), created in 2005, it helps ANME to provide renewable projects with a financial support (among other subsidies)

STEG Energies Renouvelables, created in 2010, this is a branch of the Tunisian Company for Electricity and Gas fully devoted to renewable energies[28].

►Go to Top


Utilities

STEG is the national utility, it holds a monopoly.


Others

Currently only two IPPs generate electricity:

  1. Carthage Power Company (CPC): Radès II Power Station (natural gas fired plant, total capacity 480 MW) started operation in 2002 under the terms of a build own operate (BOO) agreement and by 2010 was responsible for 21% of national production[29].
  2. Societe d’Electricite d’El Bibane (SEEB): Tunisia’s second IPP, two 13.5 MW gas turbines that went on line in 2003[30].


Energy Cooperation

Bilateral Energy Cooperation with Germany

See also: German-Tunisian Energy Partnership and DMS



Further Information

►Go to Top


References

  1. 1.0 1.1 Bureau des statistiques, Ministère de l’Industrie.
  2. ANME Maîtrise de l'Energie en Tunisie - Chiffres Clés, p19.
  3. 3.0 3.1 3.2 3.3 Bureau des statistiques, Ministère de l‘Industrie.
  4. http://www.iea.org/statistics/statisticssearch/report/?year=2012&country=TUNISIA&product=Balances
  5. http://www.iisd.org/gsi/sites/default/files/fossil-fuel-subsidies-renewable-energy-middle-east-north-african-countri%20%20%20.pdf
  6. 6.0 6.1 6.2 6.3 Ibid.
  7. ANME, Maîtrise de l'Energie en Tunisie - Chiffres Clés, p18.
  8. http://www.leaders.com.tn/article/11353-la-tunisie-sera-t-elle-capable-d-arreter-l-hemorragie-des-subventions
  9. Présentation Déjeuner-Débat du 24 Mars 2014, Rafik Missaoui.
  10. GIZ, Le marché solaire thermique en Tunisie. Christopher Gross, Situation actuelle et perspectives (2013).
  11. 11.0 11.1 http://www.oitsfax.org/files/AApresentationHDR20140323.pdf
  12. GIZ, RE-ACTIVATE.
  13. 13.0 13.1 GIZ, Enabling PV.
  14. https://energypedia.info/images/a/a2/COMPTE_RENDU_Modes_de_Financement.pdf
  15. GIZ, Secretariat of the German-Tunisian Energy Partnership.
  16. 16.0 16.1 http://www.anme.nat.tn/fileadmin/user1/doc/DEP/Rapport_final__PST.pdf
  17. STEG, Rapport annuel 2013.
  18. http://www.terna.it/default/home_en/the_company/about_terna/terna_group_abroad/growth_abroad/elmed_project.aspx
  19. http://www.iea.org/statistics/statisticssearch/report/?year=2012&country=TUNISIA&product=ElectricityandHeat
  20. http://directinfo.webmanagercenter.com/2014/11/30/tunisie-une-augmentation-attendue-de-7-des-prix-de-lelectricite-et-du-gaz-en-2015/
  21. ANME, Stratégie Nationale de maîtrise de l‘énergie. Objectifs, moyens et enjeux.
  22. ANME, Stratégie nationale de maîtrise de l'énergie. Objectifs, moyens et enjeux. p. 23
  23. http://maghrenov.eu/file/download/2878/Strategie+Nationale+de+Maitrise+de+l%27Energie_web.pdf
  24. https://www.steg.com.tn/fr/index.html
  25. http://www.etap.com.tn/
  26. www.anme.nat.tn/
  27. http://www.agil.com.tn/
  28. http://www.steg-er.com.tn/
  29. http://www.carthagepower.com.tn/en/rades.php
  30. http://www.industcards.com/cc-tunisia.htm

►Go to Top