Difference between revisions of "Benin Energy Situation"

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{| align="right" style="width: 400px; font-size: 14px;" border="0" cellspacing="1" cellpadding="5"
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{{CES Country|CES Country Name=Benin
|-
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|CES Country Capital=Porto Novo
! style="width: 602px; text-align: center; background-color: rgb(79, 129, 189);" colspan="4" scope="col" | <font color="#ffffff"><span style="line-height: 20.383522033691406px;">Benin</span></font>
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|CES Country Region Africa = Sub-Saharan Africa
|-
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|CES Country Coordinates=6.4667° N, 2.6000° E
| style="width: 250px; text-align: center; background-color: rgb(219, 229, 241);" rowspan="1" colspan="3" | [[File:Benin Flag.gif|center|180px|Flag of Benin|alt=Flag of _____.png]]
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}}
| style="width: 250px; text-align: center; background-color: rgb(219, 229, 241);" | [[File:Benin (orthographic projection with inset).png|center|180px|Benin Location|alt=Location _______.png]]
 
|-
 
| style="width: 250px; background-color: rgb(219, 229, 241);" colspan="3" | '''Capital'''
 
| style="width: 250px; background-color: rgb(219, 229, 241);" | Porto Novo
 
|-
 
| style="width: 250px; background-color: rgb(219, 229, 241);" colspan="3" | '''Official Languages(s)'''
 
| style="width: 250px; background-color: rgb(219, 229, 241);" |
 
French
 
  
|-
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= Introduction =
| style="width: 250px; background-color: rgb(219, 229, 241);" colspan="3" | '''Government'''
 
| style="width: 250px; background-color: rgb(219, 229, 241);" | Presidential Democracy
 
|-
 
| style="width: 250px; background-color: rgb(219, 229, 241);" colspan="3" | '''President'''
 
| style="width: 250px; background-color: rgb(219, 229, 241);" | Boni Yayi
 
|-
 
| style="width: 250px; background-color: rgb(219, 229, 241);" colspan="3" | '''Prime Minister'''
 
| style="width: 250px; background-color: rgb(219, 229, 241);" | Pascal Koupaki
 
|-
 
| style="width: 250px; background-color: rgb(219, 229, 241);" colspan="3" | '''Total Area ''''''<span style="line-height: 21px;">( </span>km²<span style="line-height: 21px;">)</span>'''
 
| style="width: 250px; background-color: rgb(219, 229, 241);" | 112.622
 
|-
 
| style="width: 250px; background-color: rgb(219, 229, 241);" colspan="3" | '''Population'''
 
| style="width: 250px; background-color: rgb(219, 229, 241);" | 8.971.944
 
|-
 
| style="width: 250px; background-color: rgb(219, 229, 241);" colspan="3" | '''GDP (Nominal)'''
 
| style="width: 250px; background-color: rgb(219, 229, 241);" | 5.433 Mio US$
 
|-
 
| style="width: 250px; background-color: rgb(219, 229, 241);" colspan="3" | '''GDP Per Capita'''
 
| style="width: 250px; background-color: rgb(219, 229, 241);" | 692 US$
 
|-
 
| style="width: 250px; background-color: rgb(219, 229, 241);" colspan="3" | '''Currency'''
 
| style="width: 250px; background-color: rgb(219, 229, 241);" | CFA
 
|-
 
| style="width: 250px; background-color: rgb(219, 229, 241);" colspan="3" | '''Time Zone'''
 
| style="width: 250px; background-color: rgb(219, 229, 241);" | <font color="#454545" face="Helvetica, Arial, sans-serif" size="2"><span style="line-height: 19px;">UTC +1</span></font>
 
|-
 
| style="width: 250px; background-color: rgb(219, 229, 241);" colspan="3" | '''Electricity Generation'''
 
| style="width: 250px; background-color: rgb(219, 229, 241);" | <span data-scayt_word="twh" data-scaytid="5">TWh</span>/year (year)
 
|-
 
| style="width: 250px; background-color: rgb(219, 229, 241);" colspan="3" | '''Calling Code'''
 
| style="width: 250px; background-color: rgb(219, 229, 241);" | +229
 
|-
 
| style="width: 250px; background-color: rgb(219, 229, 241);" colspan="3" | '''Wind energy (installed capacity)'''
 
| style="width: 250px; background-color: rgb(219, 229, 241);" | MW (year)
 
|-
 
| style="width: 250px; background-color: rgb(219, 229, 241);" colspan="3" | '''Solar Energy (installed capacity)'''
 
| style="width: 250px; background-color: rgb(219, 229, 241);" | MW (year)
 
|}
 
  
{| align="left" class="FCK__ShowTableBorders" style="width: 350px;" border="0" cellspacing="1" cellpadding="1"
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Benin is a least developed country in West Africa with a small southern coastline on the Bight of Benin where a majority of the population llives. Benin covers an area of approximately 110,000 km² (1/3 of the area of Germany), with a population of approximately 10.88 million ([http://www.worldbank.org/en/country/benin World Bank], 2015). Classified as a low-income country, Benin is ranked 166th out of 188 on the 2015 UNDP Human Development Index ([http://hdr.undp.org/sites/default/files/2015_human_development_report.pdf UNDP], 2015). About 75&nbsp;% of the population live on less than $ 2 a day (World Bank, 2006). In 2010, 41&nbsp;% of Benin’s population was living in urban areas, and the projections of the National Institute of Statistics and Economic Analysis predicted that by 2025 approximately 60&nbsp;% of the population will live in cities, mainly located in the coastal areas.
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| __TOC__
 
  
|}
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[[Benin Energy Situation#toc|►Go to Top]]
  
 
<br/>
 
<br/>
<div style="clear: both;"></div>
 
= Overview<br/> =
 
  
<font face="arial"><span lang="en-us" style="color: black; font-size: 10pt; mso-ansi-language: en-us; mso-bidi-font-family: arial; mso-fareast-language: de;">Benin’s energy balance of 2006 shows that 59.4 % of the total energy consumption derives from biomass, whereas only 2 % derive from electricity and 38.4 % from oil products. The country solely depends on imports to satisfy its petroleum product demand, while 85% of its electricity consumption is answered by imports from Ghana, Cote d’Ivoire and Nigeria. Households account for 48% of the country’s total electricity consumption followed by the institutional sector and the industrial sector, which account for 32% and 24% respectively. </span><span lang="en-us" style="font-size: 10pt; mso-ansi-language: en-us; mso-bidi-font-family: arial;">Although in the five past years the final total energy consumption has perceptibly increased, the structure of final energy consumption has not changed.</span></font> <span lang="en-us">Length of Domestic Transmission and Distribution Lines 5620 km, <span lang="en-us">Transnational Lines 618 km.</span></span>
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= Energy Situation =
  
<span lang="en-us"><span lang="en-us"><span lang="en-us">'''Number and Length of Power Cuts:'''</span></span></span><span>Approximately 2800 hours of electricity cuts due to rationing and just over 620 hours of unscheduled cuts.</span>
+
Benin's total energy consumption in 2009 was 3,475 ktoe (World Bank, 2009). The per capita energy consumption in the same year was 0.404 toe. This is about half of the average per capita energy consumption for Sub-Sahara African countries, and less than a quarter of the world average (World Bank, 2009).
  
Not clear how many of these unscheduled cuts were due to weather induced equipment failure or simply equipment failure due to the age of the system, vandalism etc.
+
Like for most countries in Sub-Saharan Africa, Benin's energy sector is largely dominated by the use of biomass-based energy sources (59.4%) (Tableau de Bord de l'Energie au Bénin, 2005), followed by petroleum products (38.4%) and, to a lesser degree, electricity (2.2%).<br/>
  
In Benin, biomass (firewood and charcoal) remains the dominant source of energy, followed by petroleum products and, to a lesser degree, electricity.
+
The country solely depends on imports to satisfy its petroleum product demand, while 85% of its electricity consumption is answered by imports from Ghana, Cote d’Ivoire and Nigeria. Households account for 48% of the country’s total electricity consumption followed by the institutional sector and the industrial sector, which account for 32% and 24% respectively. Although in the five past years the final total energy consumption has perceptibly increased, the structure of final energy consumption has not changed. In 2010 the national electrification rate was at 27% with 4% in rural areas and about 54% in urban areas. The length of domestic tranmission and distribution lines is 5620 km and the length of transnational lines is 618 km.
  
The country is 100% dependent on petroleum imports, making it vulnerable to dollar exchange rates and fluctuations in oil prices. Moreover, fluctuations in fossil fuel prices compromise Benin’s domestic capacity to develop its energy services. In 2007 national electrification was 25% overall although rural access was estimated to be less than 2%. (1990:8,6% of households access to Electricity / 2005: 23,2 %, absolut change in percentage +15 %)
+
The country is 100% dependent on petroleum imports, making it vulnerable to dollar exchange rates and fluctuations in oil prices. Moreover, fluctuations in fossil fuel prices compromise Benin’s domestic capacity to develop its energy services.
 
 
<br/>
 
  
 
While Benin has a large hydroelectricity potential only one major hydroelectric site currently functions. Development of over 80 pre-identified sites using micro-hydro applications would help Benin increase its energy resilience.
 
While Benin has a large hydroelectricity potential only one major hydroelectric site currently functions. Development of over 80 pre-identified sites using micro-hydro applications would help Benin increase its energy resilience.
  
 
The country has a huge and untapped renewable energy potential. Although with low levels of domestic capital formation and little internal capacity (engineers, technicians etc.) this potential is not being realised. The absence of hazard or siting maps for equipment installation means that Benin’s existing energy infrastructure remains extremely vulnerable to anticipated climate change impacts. While Benin’s National Adaptation Plan of Action notes the necessity of an emergency response plan to deal with the impacts of metrological extreme events, this plan has yet to be developed.
 
The country has a huge and untapped renewable energy potential. Although with low levels of domestic capital formation and little internal capacity (engineers, technicians etc.) this potential is not being realised. The absence of hazard or siting maps for equipment installation means that Benin’s existing energy infrastructure remains extremely vulnerable to anticipated climate change impacts. While Benin’s National Adaptation Plan of Action notes the necessity of an emergency response plan to deal with the impacts of metrological extreme events, this plan has yet to be developed.
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 +
[[Benin Energy Situation#toc|►Go to Top]]
 +
 +
== Major Challenges in Energy Sector<br/> ==
 +
 +
The energy sector is under constant pressure from different challenges.
 +
 +
However, main issues in the energy sector are as follows:
 +
 +
*Non-sustainable use of biomass: Around 80% of the population depends on the use of biomass for cooking needs. While consumption has increased between 1997 and 2002 at an annual rate of 5&nbsp;%, forest areas were reduced by 22.8&nbsp;% (i.e. 1.2 million hectares) from 1990 to 2010 (FAO). Since 2004, there is an overall shortfall in the supply of fuel wood energy at the national level, with wide variation at the regional level. This results in a massive degradation of forest resources.
 +
*Low access rate to electricity in rural areas: while the national power board SBEE has increased the electrification rate in urban areas from 20 to 52.4&nbsp;% since 1990, only 2&nbsp;% of rural areas are connected to the grid. At the same time, around 60% of the population lives in rural areas.
 +
*Electricity generation constraints Since early 2007,Benin has been going through an energy crisis due to curtailed supply from its neighbors Ghana and Cote d’Ivoire. Lack of operational capacity at the distribution utility SBEE did reinforce the crisis. Following a brief recovery at the end of 2007 after the rainy season, in mid-2008 Benin was again subject to energy shortages. However, the long term stability in the target region is assured. The reasons are ongoing investments in transmission lines interconnecting North and South Benin, Benin and Togo as well as Benin and Nigeria and the intended extension of generation capacities conducted by '''Compagnie Electrique du Bénin (CEB)'''.
  
 
<br/>
 
<br/>
  
= Land Ownership and Participation<br/> =
+
Furthermore, Power Africa adds these issues and bottlenecks as the biggest for the country's energy sector<ref name="Power Africa. (2018). Benin Factsheet. Retrieved from: https://www.usaid.gov/sites/default/files/documents/1860/Benin_-_November_2018_Country_Fact_Sheet.pdf">Power Africa. (2018). Benin Factsheet. Retrieved from: https://www.usaid.gov/sites/default/files/documents/1860/Benin_-_November_2018_Country_Fact_Sheet.pdf</ref>:
  
A rural land act has been introduced but there is no law covering urban land ownership.
+
*National utility SBEE requires operational and financial support<br/>
 +
*Unclear legal or regulatory framework for and limited experience with Independent Power Producers (IPPs)&nbsp;<br/>
 +
*Nascent off-grid sector<br/>
  
Participation Trend toward decentralised governance, but capacity-building is needed.
+
[[Benin Energy Situation#toc|►Go to Top]]
  
 
<br/>
 
<br/>
  
== Major Challenges<br/> ==
+
== Key Problems Hampering Access to Electricity ==
 +
 
 +
Although the Government of Benin clearly defined a strategy for rural electrification, the objective of achieving a rural electrification rate of 40% in 2015 is highly ambitious due to the following reasons:
 +
 
 +
SBEE is far from being capable of achieving these goals due to insufficient financial capacities: SBEE’s indebtedness is 9 times as high as its turnover and financial losses are increasing continuously, since the supply costs per kWh exceed the retail price; not only but mainly in areas provided by diesel generators.
 +
 
 +
In addition to the financial bottleneck, one important reason is the ack of knowledge about low-cost alternatives to the business as usual scenario of grid extension. This scenario was designed originally for urban areas based on high technical “EDF” standards that are inappropriate for rural areas.
 +
 
 +
Furthermore, for political reasons, SBEE focuses on the <u>extension of the grid to previously non-electrified regions</u>, instead of increasing the number of connected households in proximity to the grid.
 +
 
 +
Although some responsibilities for rural electrification have been shifted to ABERME, the agency proved to be incapable of driving the electrification process. <u>Lack of capacity</u> is the main reason, especially the lack of engineering expertise.
  
<span lang="en-us"><font face="arial">The energy sector is under constant pressure from different challenges.</font></span>
+
[[Benin Energy Situation#toc|►Go to Top]]
  
<span lang="en-us"><font face="arial"><u>However, main issues in the energy sector are as follows:</u></font></span>
+
= Institutional Set-up in the Energy Sector<br/> =
*<u><span lang="en-us"><font face="arial">Non-sustainable use of biomass</font></span></u><span lang="en-us"><font face="arial">: Around 80% of the population depends on the use of biomass for cooking needs. While consumption has increased between 1997 and 2002 at an annual rate of 5 %, forest areas were reduced by 39 %. This results in a massive degradation of forest resources.</font></span>
 
*<span lang="en-us" style="color: black; font-family: symbol; font-size: 10pt; mso-ansi-language: en-us; mso-bidi-font-family: symbol; mso-fareast-language: de; mso-fareast-font-family: symbol;"><span style="mso-list: ignore;"><span></span></span></span><u><span lang="en-us"><font face="arial">Low access rate to electricity in rural areas</font></span></u><span lang="en-us"><font face="arial">: while the national power board SBEE has increased the electrification rate in urban areas from 20 to 52.4 % since 1990, only 2 % of rural areas are connected to the grid. At the same time, around 60% of the population lives in rural areas.</font></span>
 
*<u><span lang="en-us" style="color: black; font-family: symbol; font-size: 10pt; mso-ansi-language: en-us; mso-bidi-font-family: symbol; mso-fareast-language: de; mso-fareast-font-family: symbol;"><span style="mso-list: ignore;"><span></span></span></span><font face="arial"><span lang="en-us">Electricity generation constraints</span></font></u><font face="arial"><span lang="en-us">: </span><span lang="en-us" style="color: black; font-size: 10pt; mso-ansi-language: en-us; mso-bidi-font-family: arial; mso-fareast-language: de;">Since early 2007, </span><span lang="en-us" style="font-size: 10pt; mso-ansi-language: en-us; mso-fareast-language: de;">Benin has been going through an energy crisis due to curtailed supply from its neighbors Ghana and C</span></font><span lang="en-us">o</span><font face="arial"><span lang="en-us" style="font-size: 10pt; mso-ansi-language: en-us; mso-fareast-language: de;">te d’Ivoire. Lack of operational capacity at the distribution utility SBEE did reinforce the crisis. Following a brief recovery at the end of 2007 after the rainy season, in mid-2008 Benin was again subject to energy shortages. However, <span lang="en-us">the long term stability in the target region is assured. The reasons are ongoing investments in transmission lines interconnecting North and South Benin, Benin and Togo as well as Benin and Nigeria and the intended extension of generation capacities conducted by '''Compagnie Electrique du Bénin (CEB)'''.</span></span></font>
 
  
<br/>
+
There are four main governmental actors in the electricity sector:
 +
 
 +
*Communaute Electrique du Benin(CEB): CEB is a bipartite utility supplying electricity to national distribution utilities in Benin and Togo (around 85% of generation capacity).
 +
*Societe Beninoise d’Energie Electrique(SBEE): Responsible for electricity distribution and local generation through diesel generators (around 13% of generation capacity).
 +
*Agence Beninoise d’Electrification Rurale et de Maitrise d’Energie(ABERME): responsible for rural energy supply (established in 2004).
 +
*Ministere de l'Energie, des Recherches Pétrolières et Minières, de l'Eau et du Développement des Energies Renouvelables (MERPMEDER): responsible for the national energy policy and coordination of the activities in the energy sector.
  
== Main Actors<br/> ==
+
Main actors from the private sector are for solar products and installations:
  
<u><span lang="en-us"><font face="arial">There are four main actors in the electricity sector:</font></span></u>
+
*'''L'Association Inteprofessionnel des Spécialistes des Energies Renouvelables du Bénin '''([http://www.aiser-benin.org AISER - Bénin]) / The Interprofessional Association for Renewable Energy Specialists: is an "an association for promotion and advocacy of the renewable energy in Benin"<ref>http://aiser-benin.org/lassociation/qui-sommes-nous/</ref>. AISER was created in 2011 <ref>http://levenementprecis.com/2011/10/31/creation-de-l%E2%80%99association-interprofessionnelle-de-specialistes-des-energies-renouvelables-au-beninl%E2%80%99aiser-pour-aider-le-gouvernement-dans-le-developpement-des-energies-renouvelables/</ref>, and today has around fifty organisations (companies, NGOs, academics ...) specialized in renewable energies. The main objective is to contribute to the development of renewable energy across Benin.
*<span lang="en-us" style="color: black; font-family: symbol; font-size: 10pt; mso-ansi-language: en-us; mso-bidi-font-family: symbol; mso-fareast-language: de; mso-fareast-font-family: symbol;"><span style="mso-list: ignore;"><span></span></span></span><span lang="en-us"><font face="arial">Commu</font></span><span lang="en-us"><font face="arial">naute Electrique du Benin</font></span><span lang="en-us"><font face="arial">(CEB): CEB is a bipartite utility supplying electricity to national distribution utilities in Benin and Togo (around 85% of generation capacity).</font></span>
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*'''ECOSOLARIS AFRIQUE SARL '''is a canadian enterprise specialised dans l’énergie solaire présente au Bénin depuis Février 2013. Elle est une succursale des Entreprises Ecosolaris inc, leader canadien de l’énergie solaire, distributeur depuis plusieurs années des produits de qualité Nord-Américains, Européens, Australiens et Asiatiques qui a su développer une expertise sur le terrain dans les installations hors réseau pour les systèmes à la fois photovoltaïque et thermique. Ecosolaris Afrique vend des produits de '''Barefoot Power LTD '''et '''Flexyway solar.'''
*<span lang="en-us"><font face="arial">Societe Beninoise d’Energie Electrique</font></span><span lang="en-us"><font face="arial">(SBEE): Responsible for electricity distribution and local generation through diesel generators (around 13% of generation capacity).</font></span>
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*'''BONERGIE BENIN SARL '''was founded in 2012 with support of the German social company BONERGIE. Bonergie is selling Sun Tranfer products (see also [http://www.bonergie.com/english/produkte.html http://www.bonergie.com/english/produkte.html]).
*<span lang="en-us" style="color: black; font-family: symbol; font-size: 10pt; mso-ansi-language: en-us; mso-bidi-font-family: symbol; mso-fareast-language: de; mso-fareast-font-family: symbol;"><span style="mso-list: ignore;"><span></span></span></span><span lang="en-us"><font face="arial">Agence Beninoise d’Electrification Rurale et de Maitrise d’Energie</font></span><span lang="en-us"><font face="arial">(ABERME): responsible for rural energy supply (established in 2004).</font></span>
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*'''Objectifs SARL '''which is selling Sun King products of the US company greenlight planet
*<span lang="en-us"><font face="arial">Ministere de l'Energie et de L'Eau (MEE)</font></span><span lang="en-us"><font face="arial">: responsible for the national energy policy and coordination of the activities in the energy sector.</font></span>
 
  
 
<br/>
 
<br/>
  
<br/>
+
= Policy Framework, Laws and Regulations =
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 +
In order to tackle the challenges in the energy sector the government of Benin has formulated the Policy and Strategy Document for the Development of the Electricity Sector that provides the long term vision and the strategy of the country by 2025.
  
== <font face="arial">Policy Framework</font><br/> ==
+
The overall energy strategy can be summarised as follows:
  
<span lang="en-us"><font face="arial">In order to tackle the challenges in the energy sector the government of Benin has formulated the <u>Policy and Strategy Document for the Development of the Electricity Sector</u> that provides the long term vision and the strategy of the country by 2025.</font></span>
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*strengthening the legal and institutional framework;
 +
*ensuring reliable electricity supply to support economic activities and achieve the national energy security and an efficient energy delivery system with an optimal energy resource mix;
 +
*increasing energy access to population through new power generation plants, regional interconnection and rural electrification;
 +
*promoting private investments in the power sector by creating the enabling market environment for private sector participation
 +
*promoting energy efficiency in all sector.
  
<span lang="en-us"><font face="arial"><u>The overall energy strategy can be summarised as follows:</u></font></span>
+
Regarding rural electrification, it aims at providing 150 villages p.a. with access to electricity in order to achieve a rural electrification rate of 30–40&nbsp;% by 2015. Furthermore, promoting the dissemination of improved stoves and other renewable domestic energy sources are additional objectives of the strategy to tackle the energy challenges in rural areas.
*<span lang="en-us"><font face="arial">strengthening the legal and institutional framework;</font></span>
 
*<span lang="en-us"><font face="arial">ensuring reliable electricity supply to support economic activities and achieve the national energy security and an efficient energy delivery system with an optimal energy resource mix;</font></span>
 
*<span lang="en-us"><font face="arial">increasing energy access to population through new power generation plants, regional interconnection and rural electrification;</font></span>
 
*<span lang="en-us"><font face="arial">promoting private investments in the power sector by creating the enabling market environment for private sector participation</font></span>
 
*<span lang="en-us"><font face="arial">promoting energy efficiency in all sector.</font></span>
 
  
<br/>
+
In the run of the energy sector reform, which gained considerable momentum in recent months (mainly due to growing World Bank interest in the sector), the establishment of a Rural Electrification Fund is being discussed. It shall incorporate a concession model with minimum subsidy bidding. The Fund is intended to bundle investments of donor agencies designated to rural electrification. Rural regions covered by the SBEE grid will also be concessioned(15 concessions in total). However, basic features of this instrument are yet unclear such as regulation, payment authorisation and tariffing. Experiences in Senegal and Mali, furthermore, expose a very limited interest of private enterprises to compete for such funds. Concerning the national and even regional private sector, the mobilisation of financial resources is less an impediment than lacking capacities to implement privately run electricity concessions in Benin.
  
<span lang="en-us"><font face="arial">Regarding <u>rural electrification</u>, it aims at providing 150 villages p.a. with access to electricity in order to achieve a rural electrification rate of 30–40 % by 2015. Furthermore, promoting the dissemination of improved stoves and other renewable domestic energy sources are additional objectives of the strategy to tackle the energy challenges in rural areas.</font></span>
+
The reform process goes along with a shift in responsibilities for rural electrification from SBEE to ABERME. It is, furthermore, planned to split up SBEE into an asset management and a distribution management company<u>.</u>
  
<font face="arial"><span lang="en-us">In the run of the <u>energy sector reform</u>, which gained considerable momentum in recent months (mainly due to growing World Bank interest in the sector), the establishment of a <u>Rural Electrification Fund </u>is being discussed. </span><span lang="en-gb" style="line-height: 150%; font-size: 10pt; mso-ansi-language: en-gb; mso-bidi-font-family: arial;">It shall incorporate a concession model with minimum subsidy bidding. The Fund is intended to bundle investments of donor agencies designated to rural electrification. Rural regions covered by the SBEE grid will also be concessioned<span class="MsoPageNumber"><span>(15 concess</span></span>ions in total). However, basic features of this instrument are yet unclear such as regulation, payment authorisation and tariffing. Experiences in Senegal and Mali, furthermore, expose a very limited interest of private enterprises to compete for such funds. Concerning the national and even regional private sector, the mobilisation of financial resources is less an impediment than lacking capacities to implement privately run electricity concessions in Benin.</span></font>
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[[Benin Energy Situation#toc|►Go to Top]]
  
<span lang="en-gb" style="font-size: 10pt; mso-ansi-language: en-gb; mso-bidi-font-family: arial;"><font face="arial">The reform process goes along with a shift in responsibilities for rural electrification from SBEE to ABERME. It is, furthermore, planned to split up SBEE into an asset management and a distribution management company.</font></span>
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== Internationally funded projects ==
  
<br/>
+
The French Agency for Development (AFD) is preparing a project to support the restructuration and extension of the grid in the region Abomey-Calavi and the Atlantic Department. The project is cofounded by the EU and the European Investment Bank.
  
<br/>
+
The African Development Bank (AfDB) finances a project to restructure and reinforce power generation and electricity distribution of the utility SBEE in Cotonou, Porto Novo, Parakou, Bohicon, and Lokossa
  
== Key Problems Hampering Access to Electricity<br/> ==
+
The World Bank is implementing the following projects:<br/>The “Increased Access to Modern Energy” supported by several banks including the KfW is intended to increase the number of customers connected to the grid. The project is comprised of four components: (A) Electrical Network Upgrading, (B) Electrification and Modern Energy Services, (C) Sustainable Energy Services and (D) Project Preparation.<br/>Component A supports the upgrading of the existing transmission and distribution grid. The planned activities include the construction of two transmission lines, rehabilitation of distribution networks in key urban centers, installation of prepaid meters and measures to enhance lighting and appliance efficiency to help reduce peak load and energy consumption.<br/>Component B supports the provision of modern energy services in rural areas. Component C supports the provision of technical assistance to improve the financial autonomy and performance of key sector institutions and enhance the capacity to better plan and regulate Benin's energy sector. Component D aims at supporting planning of new projects such as the hydropower project in Adjarala.<br/>The World Bank also supports the construction of the barrage for the hydropower plant in Adjarala. The project is co-financed by AfDB.<br/>In addition the World Bank with funding from KfW and European Investment Bank executes a project to strengthen power transmission between Togo and Benin.
  
<span lang="en-gb" style="font-size: 10pt; mso-ansi-language: en-gb; mso-bidi-font-family: arial;"></span>
+
BMZ finances activities of GIZ to strengthen the capacity of the West African Power Pool. In addition BMZ provides funds for KfW to rehabilitate the hydropower plant in Nangbeto. KfW is also financing the transmission line between Sakété and Porto Novo.
  
<span lang="en-us"><font face="arial">Although the Government of Benin clearly defined a strategy for rural electrification, the objective of achieving a rural electrification rate of 40% in 2015 is highly ambitious due to the following reasons:</font></span>
+
On behalf of six donors, the Energising Development Program (EnDev) executed by GIZ is supporting grid extension, grid densification, picoPV system and dissemination of improved stoves
  
<font face="arial"><span lang="en-us">SBEE is far from being capable of achieving these goals due to <u>insufficient financial capacities</u>: </span><span lang="en-us" style="font-size: 10pt; mso-ansi-language: en-us; mso-bidi-font-family: arial;">SBEE’s indebtedness is 9 times as high as its turnover and financial losses are increasing continuously, since the supply costs per kWh exceed the retail price; not only but mainly in areas provided by diesel generators</span><span lang="en-us">.</span></font>
+
The European Union is supporting the «&nbsp;Centre d'Information et de Contrôle (CIC)&nbsp;» of the West African Power Pool.
  
<span lang="en-us"><font face="arial">In addition to the financial bottleneck, one important reason is the <u>lack of knowledge about low-cost alternatives </u>to the business as usual scenario of grid extension. This scenario was designed originally for urban areas based on high technical “EDF” standards that are inappropriate for rural areas.</font></span>
+
== Energy Planning ==
  
<span lang="en-us"><font face="arial">Furthermore, for political reasons, SBEE focuses on the <u>extension of the grid to previously non-electrified regions</u>, instead of increasing the number of connected households in proximity to the grid.</font></span>
+
With the help of the the Open Source Spatial Electrification Tool (OnSSET) 21 electrification pathways were&nbsp;examined for Benin in 2018. The tool leverages geo-spatial information and uses a least-cost approach to identify the most cost effective electrification solution in each settlement. Results show that 58-92% of the population in 2030 is expected to receive electricity from the grid. The remaining 8-42% is expected to gain electricity access through mini-grids or stand-alone systems. The total investment cost required to achieve universal electrification in Benin by 2030, ranges from 1.2 to 5.9 billion USD, depending on the level of service provided and technology cost developments.<ref>ELECTRIFICATION PATHWAYS FOR BENINA spatial electrification analysis based on the Open Source Spatial Electrification Tool (OnSSET). 2018. http://www.onsset.org/uploads/1/8/5/0/18504136/electrification_pathways_for_benin.pdf</ref>  
  
<span lang="en-us">Although some responsibilities for rural electrification have been shifted to ABERME, the agency proved to be incapable of driving the electrification process. <u>Lack of capacity</u> is the main reason, especially the lack of engineering expertise. <span style="mso-spacerun: yes;"></span></span>
+
*Check out the mapping at https://electrifynow.energydata.info/countries/BJ/models
  
<br/>
 
  
 
= Further Information =
 
= Further Information =
  
= References<br/> =
+
*[[EnDev_Bénin|EnDev Benin Hub]]
 +
*[[Portal:Countries|Country portal on energypedia]]
 +
*[[Rural Electrification in Benin *French*|Rural Electrification in Benin (French)]]
 +
*USAID Power Africa: [https://www.usaid.gov/sites/default/files/documents/1860/Benin_-_November_2018_Country_Fact_Sheet.pdf Benin Factsheet]&nbsp;
 +
*Case study: "[[:File:Analysis_of_Quality_Infrastructure_Services_Offered_in_Benin_and_Potential_for_Development.pdf|Analysis of Quality Infrastructure offered in Benin and Potential for Development]]" with insights into quality assurance for renewable energies in the context of climate change mitigation and adpation; as part of the publication "[[:File:Quality_Infrastructure_for_Climate_Change_Mitigation_and_Adaptation_in_Sub-Saharan_Africa.pdf|Quality Infrastructure for Climate Change Mitigation and Adaptation to Climate Change: Potentials, Opportunities and Chances in Sub-Saharan Africa]]." PTB, 2019
 +
 
 +
<br/>
 +
= References =
  
<references /><br/>
+
<references />
  
[[Category:Country_Energy_Situation]]
+
<br/>[[Benin Energy Situation#toc|►Go to Top]]
[[Category:Benin]]
 

Latest revision as of 08:23, 12 February 2024


Benin
Flag of Benin.png
Location _______.png

Capital:

Porto Novo

Region:

Coordinates:

6.4667° N, 2.6000° E

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

114,760

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.

14,111,034 (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.

50 (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.

19,676,049,076 (2023)

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

1,394.37 (2023)

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

56.50 (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.

46.59 (2014)

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

36.72 (2014)

Source: World Bank



Introduction

Benin is a least developed country in West Africa with a small southern coastline on the Bight of Benin where a majority of the population llives. Benin covers an area of approximately 110,000 km² (1/3 of the area of Germany), with a population of approximately 10.88 million (World Bank, 2015). Classified as a low-income country, Benin is ranked 166th out of 188 on the 2015 UNDP Human Development Index (UNDP, 2015). About 75 % of the population live on less than $ 2 a day (World Bank, 2006). In 2010, 41 % of Benin’s population was living in urban areas, and the projections of the National Institute of Statistics and Economic Analysis predicted that by 2025 approximately 60 % of the population will live in cities, mainly located in the coastal areas.

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Energy Situation

Benin's total energy consumption in 2009 was 3,475 ktoe (World Bank, 2009). The per capita energy consumption in the same year was 0.404 toe. This is about half of the average per capita energy consumption for Sub-Sahara African countries, and less than a quarter of the world average (World Bank, 2009).

Like for most countries in Sub-Saharan Africa, Benin's energy sector is largely dominated by the use of biomass-based energy sources (59.4%) (Tableau de Bord de l'Energie au Bénin, 2005), followed by petroleum products (38.4%) and, to a lesser degree, electricity (2.2%).

The country solely depends on imports to satisfy its petroleum product demand, while 85% of its electricity consumption is answered by imports from Ghana, Cote d’Ivoire and Nigeria. Households account for 48% of the country’s total electricity consumption followed by the institutional sector and the industrial sector, which account for 32% and 24% respectively. Although in the five past years the final total energy consumption has perceptibly increased, the structure of final energy consumption has not changed. In 2010 the national electrification rate was at 27% with 4% in rural areas and about 54% in urban areas. The length of domestic tranmission and distribution lines is 5620 km and the length of transnational lines is 618 km.

The country is 100% dependent on petroleum imports, making it vulnerable to dollar exchange rates and fluctuations in oil prices. Moreover, fluctuations in fossil fuel prices compromise Benin’s domestic capacity to develop its energy services.

While Benin has a large hydroelectricity potential only one major hydroelectric site currently functions. Development of over 80 pre-identified sites using micro-hydro applications would help Benin increase its energy resilience.

The country has a huge and untapped renewable energy potential. Although with low levels of domestic capital formation and little internal capacity (engineers, technicians etc.) this potential is not being realised. The absence of hazard or siting maps for equipment installation means that Benin’s existing energy infrastructure remains extremely vulnerable to anticipated climate change impacts. While Benin’s National Adaptation Plan of Action notes the necessity of an emergency response plan to deal with the impacts of metrological extreme events, this plan has yet to be developed.

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Major Challenges in Energy Sector

The energy sector is under constant pressure from different challenges.

However, main issues in the energy sector are as follows:

  • Non-sustainable use of biomass: Around 80% of the population depends on the use of biomass for cooking needs. While consumption has increased between 1997 and 2002 at an annual rate of 5 %, forest areas were reduced by 22.8 % (i.e. 1.2 million hectares) from 1990 to 2010 (FAO). Since 2004, there is an overall shortfall in the supply of fuel wood energy at the national level, with wide variation at the regional level. This results in a massive degradation of forest resources.
  • Low access rate to electricity in rural areas: while the national power board SBEE has increased the electrification rate in urban areas from 20 to 52.4 % since 1990, only 2 % of rural areas are connected to the grid. At the same time, around 60% of the population lives in rural areas.
  • Electricity generation constraints Since early 2007,Benin has been going through an energy crisis due to curtailed supply from its neighbors Ghana and Cote d’Ivoire. Lack of operational capacity at the distribution utility SBEE did reinforce the crisis. Following a brief recovery at the end of 2007 after the rainy season, in mid-2008 Benin was again subject to energy shortages. However, the long term stability in the target region is assured. The reasons are ongoing investments in transmission lines interconnecting North and South Benin, Benin and Togo as well as Benin and Nigeria and the intended extension of generation capacities conducted by Compagnie Electrique du Bénin (CEB).


Furthermore, Power Africa adds these issues and bottlenecks as the biggest for the country's energy sector[1]:

  • National utility SBEE requires operational and financial support
  • Unclear legal or regulatory framework for and limited experience with Independent Power Producers (IPPs) 
  • Nascent off-grid sector

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Key Problems Hampering Access to Electricity

Although the Government of Benin clearly defined a strategy for rural electrification, the objective of achieving a rural electrification rate of 40% in 2015 is highly ambitious due to the following reasons:

SBEE is far from being capable of achieving these goals due to insufficient financial capacities: SBEE’s indebtedness is 9 times as high as its turnover and financial losses are increasing continuously, since the supply costs per kWh exceed the retail price; not only but mainly in areas provided by diesel generators.

In addition to the financial bottleneck, one important reason is the ack of knowledge about low-cost alternatives to the business as usual scenario of grid extension. This scenario was designed originally for urban areas based on high technical “EDF” standards that are inappropriate for rural areas.

Furthermore, for political reasons, SBEE focuses on the extension of the grid to previously non-electrified regions, instead of increasing the number of connected households in proximity to the grid.

Although some responsibilities for rural electrification have been shifted to ABERME, the agency proved to be incapable of driving the electrification process. Lack of capacity is the main reason, especially the lack of engineering expertise.

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Institutional Set-up in the Energy Sector

There are four main governmental actors in the electricity sector:

  • Communaute Electrique du Benin(CEB): CEB is a bipartite utility supplying electricity to national distribution utilities in Benin and Togo (around 85% of generation capacity).
  • Societe Beninoise d’Energie Electrique(SBEE): Responsible for electricity distribution and local generation through diesel generators (around 13% of generation capacity).
  • Agence Beninoise d’Electrification Rurale et de Maitrise d’Energie(ABERME): responsible for rural energy supply (established in 2004).
  • Ministere de l'Energie, des Recherches Pétrolières et Minières, de l'Eau et du Développement des Energies Renouvelables (MERPMEDER): responsible for the national energy policy and coordination of the activities in the energy sector.

Main actors from the private sector are for solar products and installations:

  • L'Association Inteprofessionnel des Spécialistes des Energies Renouvelables du Bénin (AISER - Bénin) / The Interprofessional Association for Renewable Energy Specialists: is an "an association for promotion and advocacy of the renewable energy in Benin"[2]. AISER was created in 2011 [3], and today has around fifty organisations (companies, NGOs, academics ...) specialized in renewable energies. The main objective is to contribute to the development of renewable energy across Benin.
  • ECOSOLARIS AFRIQUE SARL is a canadian enterprise specialised dans l’énergie solaire présente au Bénin depuis Février 2013. Elle est une succursale des Entreprises Ecosolaris inc, leader canadien de l’énergie solaire, distributeur depuis plusieurs années des produits de qualité Nord-Américains, Européens, Australiens et Asiatiques qui a su développer une expertise sur le terrain dans les installations hors réseau pour les systèmes à la fois photovoltaïque et thermique. Ecosolaris Afrique vend des produits de Barefoot Power LTD et Flexyway solar.
  • BONERGIE BENIN SARL was founded in 2012 with support of the German social company BONERGIE. Bonergie is selling Sun Tranfer products (see also http://www.bonergie.com/english/produkte.html).
  • Objectifs SARL which is selling Sun King products of the US company greenlight planet


Policy Framework, Laws and Regulations

In order to tackle the challenges in the energy sector the government of Benin has formulated the Policy and Strategy Document for the Development of the Electricity Sector that provides the long term vision and the strategy of the country by 2025.

The overall energy strategy can be summarised as follows:

  • strengthening the legal and institutional framework;
  • ensuring reliable electricity supply to support economic activities and achieve the national energy security and an efficient energy delivery system with an optimal energy resource mix;
  • increasing energy access to population through new power generation plants, regional interconnection and rural electrification;
  • promoting private investments in the power sector by creating the enabling market environment for private sector participation
  • promoting energy efficiency in all sector.

Regarding rural electrification, it aims at providing 150 villages p.a. with access to electricity in order to achieve a rural electrification rate of 30–40 % by 2015. Furthermore, promoting the dissemination of improved stoves and other renewable domestic energy sources are additional objectives of the strategy to tackle the energy challenges in rural areas.

In the run of the energy sector reform, which gained considerable momentum in recent months (mainly due to growing World Bank interest in the sector), the establishment of a Rural Electrification Fund is being discussed. It shall incorporate a concession model with minimum subsidy bidding. The Fund is intended to bundle investments of donor agencies designated to rural electrification. Rural regions covered by the SBEE grid will also be concessioned(15 concessions in total). However, basic features of this instrument are yet unclear such as regulation, payment authorisation and tariffing. Experiences in Senegal and Mali, furthermore, expose a very limited interest of private enterprises to compete for such funds. Concerning the national and even regional private sector, the mobilisation of financial resources is less an impediment than lacking capacities to implement privately run electricity concessions in Benin.

The reform process goes along with a shift in responsibilities for rural electrification from SBEE to ABERME. It is, furthermore, planned to split up SBEE into an asset management and a distribution management company.

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Internationally funded projects

The French Agency for Development (AFD) is preparing a project to support the restructuration and extension of the grid in the region Abomey-Calavi and the Atlantic Department. The project is cofounded by the EU and the European Investment Bank.

The African Development Bank (AfDB) finances a project to restructure and reinforce power generation and electricity distribution of the utility SBEE in Cotonou, Porto Novo, Parakou, Bohicon, and Lokossa

The World Bank is implementing the following projects:
The “Increased Access to Modern Energy” supported by several banks including the KfW is intended to increase the number of customers connected to the grid. The project is comprised of four components: (A) Electrical Network Upgrading, (B) Electrification and Modern Energy Services, (C) Sustainable Energy Services and (D) Project Preparation.
Component A supports the upgrading of the existing transmission and distribution grid. The planned activities include the construction of two transmission lines, rehabilitation of distribution networks in key urban centers, installation of prepaid meters and measures to enhance lighting and appliance efficiency to help reduce peak load and energy consumption.
Component B supports the provision of modern energy services in rural areas. Component C supports the provision of technical assistance to improve the financial autonomy and performance of key sector institutions and enhance the capacity to better plan and regulate Benin's energy sector. Component D aims at supporting planning of new projects such as the hydropower project in Adjarala.
The World Bank also supports the construction of the barrage for the hydropower plant in Adjarala. The project is co-financed by AfDB.
In addition the World Bank with funding from KfW and European Investment Bank executes a project to strengthen power transmission between Togo and Benin.

BMZ finances activities of GIZ to strengthen the capacity of the West African Power Pool. In addition BMZ provides funds for KfW to rehabilitate the hydropower plant in Nangbeto. KfW is also financing the transmission line between Sakété and Porto Novo.

On behalf of six donors, the Energising Development Program (EnDev) executed by GIZ is supporting grid extension, grid densification, picoPV system and dissemination of improved stoves

The European Union is supporting the « Centre d'Information et de Contrôle (CIC) » of the West African Power Pool.

Energy Planning

With the help of the the Open Source Spatial Electrification Tool (OnSSET) 21 electrification pathways were examined for Benin in 2018. The tool leverages geo-spatial information and uses a least-cost approach to identify the most cost effective electrification solution in each settlement. Results show that 58-92% of the population in 2030 is expected to receive electricity from the grid. The remaining 8-42% is expected to gain electricity access through mini-grids or stand-alone systems. The total investment cost required to achieve universal electrification in Benin by 2030, ranges from 1.2 to 5.9 billion USD, depending on the level of service provided and technology cost developments.[4]


Further Information


References


►Go to Top