Difference between revisions of "Senegal Energy Situation"
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+ | {| width="100%" cellspacing="0" cellpadding="0" border="0" align="left" class="FCK__ShowTableBorders" | ||
+ | |- | ||
+ | | | ||
+ | = Overview<br> = | ||
+ | |||
+ | {| width="400" cellspacing="0" cellpadding="0" border="1" style="float: right;" | ||
+ | |- | ||
+ | | align="center" colspan="4" | '''Republic of Senegal''' | ||
+ | |- | ||
+ | | [[Image:Senegal_Flag.gif|border|center|150x100px|Flag of Algeria.png]]<br> | ||
+ | | [[Image:Senegal_Situation.gif|center|163x106px|Location Algeria.png]]<br> | ||
+ | |- | ||
+ | | | ||
+ | Capital<br> | ||
+ | |||
+ | | | ||
+ | <br>Dakar ([http://toolserver.org/~geohack/geohack.php?pagename=Senegal¶ms=14_40_N_17_25_W_type:country 14° 40′ 0″ N, 17° 25′ 0″ W]) | ||
+ | |||
+ | |- | ||
+ | | | ||
+ | Official language(s)<br> | ||
+ | |||
+ | | | ||
+ | French<br> | ||
+ | |||
+ | |- | ||
+ | | | ||
+ | Government<br> | ||
+ | |||
+ | | | ||
+ | Semi-Presidential Republic<br> | ||
+ | |||
+ | |- | ||
+ | | | ||
+ | President<br> | ||
+ | |||
+ | | | ||
+ | Abdoulaye Wade<br> | ||
+ | |||
+ | |- | ||
+ | | | ||
+ | Prime Minister<br> | ||
+ | |||
+ | | | ||
+ | Souleymane Ndéné Ndiaye<br> | ||
+ | |||
+ | |- | ||
+ | | | ||
+ | Total area<br> | ||
+ | |||
+ | | | ||
+ | 196,723 km<sup>2</sup><br> | ||
+ | |||
+ | |- | ||
+ | | | ||
+ | Population<br> | ||
+ | |||
+ | | | ||
+ | 13,711,597 (2009 estimate) | ||
+ | |||
+ | |- | ||
+ | | | ||
+ | GDP (nominal)<br> | ||
+ | |||
+ | | | ||
+ | $13.472 billion (2010 estimate)<br> | ||
+ | |||
+ | |- | ||
+ | | | ||
+ | GDP Per capita <br> | ||
+ | |||
+ | | | ||
+ | $1,026<br> | ||
+ | |||
+ | |- | ||
+ | | | ||
+ | Currency<br> | ||
+ | |||
+ | | | ||
+ | CFA franc (XOF)<br> | ||
+ | |||
+ | |- | ||
+ | | | ||
+ | Time zone<br> | ||
+ | |||
+ | | | ||
+ | UTC<br> | ||
+ | |||
+ | |- | ||
+ | | | ||
+ | Calling code<br> | ||
+ | |||
+ | | | ||
+ | +221<br> | ||
+ | |||
+ | |} | ||
+ | |||
+ | {| width="350" cellspacing="1" cellpadding="1" border="0" align="left" class="FCK__ShowTableBorders" | ||
+ | |- | ||
+ | | __TOC__ | ||
+ | |} | ||
+ | |||
+ | |- | ||
+ | | | ||
= Energy Situation = | = Energy Situation = | ||
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Senegal’s hydroelectric potential remains untapped. However with rainfalls predicted to decline by 17 % over the next 20-50 years, attention will have to be paid to hydro’s role in Senegal’s energy mix. The development of flow regime optimisation plans will help in this regard. | Senegal’s hydroelectric potential remains untapped. However with rainfalls predicted to decline by 17 % over the next 20-50 years, attention will have to be paid to hydro’s role in Senegal’s energy mix. The development of flow regime optimisation plans will help in this regard. | ||
− | <br> | + | <br> |
== Energy Demand and Supply in the Household Sector == | == Energy Demand and Supply in the Household Sector == | ||
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[[Image:Senegal Consumption per sector 2000-2006.JPG|thumb|Senegal´s energy consumption 2000-2006 subdivided into sectors]] | [[Image:Senegal Consumption per sector 2000-2006.JPG|thumb|Senegal´s energy consumption 2000-2006 subdivided into sectors]] | ||
− | <br> | + | <br> |
=== Biomass === | === Biomass === | ||
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The Senegalese government has recently published several policy orientations, thus beginning to address these extremely urgent issues. Nevertheless the Senegalese forest sector lacks institutional capacities and efficiency in order to launch basic reform processes and to implement sustainable changes on a large scale and to face deforestation. | The Senegalese government has recently published several policy orientations, thus beginning to address these extremely urgent issues. Nevertheless the Senegalese forest sector lacks institutional capacities and efficiency in order to launch basic reform processes and to implement sustainable changes on a large scale and to face deforestation. | ||
− | <br> | + | <br> |
=== Electricity === | === Electricity === | ||
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Anyhow, the electrification rate is relatively high: in urban areas it reaches 75 % and nationwide it´s around 45 %. | Anyhow, the electrification rate is relatively high: in urban areas it reaches 75 % and nationwide it´s around 45 %. | ||
− | <span style="color: | + | <span style="color: rgb(255, 0, 0);">Access to Electricity (% of households) 2000: 30% (58% urb.); 2006: 44% (77% urb.)</span> |
On the other hand, in 2008 only about 17 % of rural households have access to electricity. Recently, the government set the target to increase rural electrification to 50 % by 2012. The goal seems very ambitious and explains the high ranking of rural electrification on the political agenda. | On the other hand, in 2008 only about 17 % of rural households have access to electricity. Recently, the government set the target to increase rural electrification to 50 % by 2012. The goal seems very ambitious and explains the high ranking of rural electrification on the political agenda. | ||
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[[Image:Electricity Prod Cap of Senegal.JPG|thumb|right|Installed Capacity and Electricity Production in Senegal]] | [[Image:Electricity Prod Cap of Senegal.JPG|thumb|right|Installed Capacity and Electricity Production in Senegal]] | ||
− | <br> | + | <br> |
= Electricity Generation, Transmission and Distribution = | = Electricity Generation, Transmission and Distribution = | ||
− | == Electricty Generation == | + | == Electricty Generation == |
<br>Senegal’s total installed capacity is 634.9 MW, but in 2008 only 548.8 MW were used. Of these 512.1 MW are connected to the national grid. SENELEC owns power stations with nearly 60 % of the total production capacity while 218.3 MW are private US-owned by GTI-Dakar and ESKOM-Manantali. | <br>Senegal’s total installed capacity is 634.9 MW, but in 2008 only 548.8 MW were used. Of these 512.1 MW are connected to the national grid. SENELEC owns power stations with nearly 60 % of the total production capacity while 218.3 MW are private US-owned by GTI-Dakar and ESKOM-Manantali. | ||
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The major part is 'generated' by diesel plants, but there are also gas-, steam- and gas-steam power plants. Senegal uses 60 MW of the 200 MW Manantali hydroelectric power plant at the border with Mali. As a result the electricity price strongly depends on the world market oil-price and the local Diesel price in both - national grid as well as in mini-grids. Anyway, due to subsidies the price is relatively low. | The major part is 'generated' by diesel plants, but there are also gas-, steam- and gas-steam power plants. Senegal uses 60 MW of the 200 MW Manantali hydroelectric power plant at the border with Mali. As a result the electricity price strongly depends on the world market oil-price and the local Diesel price in both - national grid as well as in mini-grids. Anyway, due to subsidies the price is relatively low. | ||
− | == Transmission == | + | == Transmission == |
+ | |||
<br>There are two grid-systems: the national grid at 90 kV (327.5 km) and the supranational grid at 225 kV (945 km). Both are operated by SENELEC. The grid only supplies urban areas around Dakar, Thies, St. Louis and Kaolack/Fatick with electricity. But there are several isolated networks in order to power some remote areas. | <br>There are two grid-systems: the national grid at 90 kV (327.5 km) and the supranational grid at 225 kV (945 km). Both are operated by SENELEC. The grid only supplies urban areas around Dakar, Thies, St. Louis and Kaolack/Fatick with electricity. But there are several isolated networks in order to power some remote areas. | ||
− | <span style="color: | + | <span style="color: rgb(255, 0, 0);"><span lang="EN-US" style="font-size: 10pt; line-height: 115%; font-family: 'times new roman','serif';">Length of Domestic Transmission and Distribution Lines 13477 km.</span></span> |
− | <span style="color: | + | <span style="color: rgb(255, 0, 0);">'''Number and Length of Power Cuts: '''</span> |
− | *<span style="color: | + | *<span style="color: rgb(255, 0, 0);">From 2005 – 2008 the quality of service characterised by an increasing number of incidents and non-distributed energy. </span> |
− | *<span style="color: | + | *<span style="color: rgb(255, 0, 0);">Severe rationing due to lack of production and several major cable faults led to a rise in cuts from 587 to 1792 Over the same 3 year period interruptions due to technical incidents on the 30 KV grid almost doubled from 1257 to 2219 on the 30 kV grid </span> |
− | *<span style="color: | + | *<span style="color: rgb(255, 0, 0);">The number of high-voltage grid interruptions due to technical failures fell 16% from 150 to 126 </span> |
− | <br> | + | <br> |
The following map shows the current electricity transport lines as well as main power plants. | The following map shows the current electricity transport lines as well as main power plants. | ||
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[[Image:Senegal Electricity transport and production.JPG|thumb|right|Electricity transport and production]] | [[Image:Senegal Electricity transport and production.JPG|thumb|right|Electricity transport and production]] | ||
− | <br> | + | <br> |
+ | |||
+ | == Distribution == | ||
− | |||
<br>All distribution activities are carried out by SENELEC. | <br>All distribution activities are carried out by SENELEC. | ||
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Barriers to rural electrification are, among others, low purchasing power of the consumers (implying a need for subsidies if a broad range of people is to be targeted), the small number of qualified enterprises intervening on the rural market, and the incongruity of rural electrification funds and demand. In addition, administrative processes in the rural electrification agency ASER are lengthy and intransparent to potential operators (necessity for capacity building of ASER staff). | Barriers to rural electrification are, among others, low purchasing power of the consumers (implying a need for subsidies if a broad range of people is to be targeted), the small number of qualified enterprises intervening on the rural market, and the incongruity of rural electrification funds and demand. In addition, administrative processes in the rural electrification agency ASER are lengthy and intransparent to potential operators (necessity for capacity building of ASER staff). | ||
− | <br> | + | <br> |
= Institutional Set Up and Actors in the Energy Sector = | = Institutional Set Up and Actors in the Energy Sector = | ||
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The Ministry of Energy ([http://www.energie.gouv.sn/ Ministère de l’Energie]) as the lead agency is in charge of formulating, coordinating, and setting overall objectives, policies, strategies, and general directives for the entire energy sector. Furthermore it is authorized to issue directives to SENELEC. The '''CRSE''' is responsible for the distribution and monitoring of concession and licences (except those for rural areas), for the market control (control of competition) and it fixes the end-user prices for electricity. '''ASER''' was founded in 2000 and is the governmental agency which is charged with the task of rural electrification. It is financed by the Senegalese government and international donores (such as Worldbank, GTZ, KfW, AfDB, IsDB). ASER tends the concessions for rural areas for private investors and finances 70% of the projects (see [http://www.energypedia.info/index.php/Senegal_Country_Situation Rural Electrification section]). Urban electricity supply remained within the responsibility of SENELEC/CRSE. | The Ministry of Energy ([http://www.energie.gouv.sn/ Ministère de l’Energie]) as the lead agency is in charge of formulating, coordinating, and setting overall objectives, policies, strategies, and general directives for the entire energy sector. Furthermore it is authorized to issue directives to SENELEC. The '''CRSE''' is responsible for the distribution and monitoring of concession and licences (except those for rural areas), for the market control (control of competition) and it fixes the end-user prices for electricity. '''ASER''' was founded in 2000 and is the governmental agency which is charged with the task of rural electrification. It is financed by the Senegalese government and international donores (such as Worldbank, GTZ, KfW, AfDB, IsDB). ASER tends the concessions for rural areas for private investors and finances 70% of the projects (see [http://www.energypedia.info/index.php/Senegal_Country_Situation Rural Electrification section]). Urban electricity supply remained within the responsibility of SENELEC/CRSE. | ||
− | <br> | + | <br> |
== Non Governmental Service Providers for Rural Areas in the Field of Energy == | == Non Governmental Service Providers for Rural Areas in the Field of Energy == | ||
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The SEM Fund, or the [http://www.sem-fund.org/ Senegal Ecovillage Microfinance Fund], is a nonprofit organisation dedicated to poverty alleviation by providing affordable business loans aimed at strengthening the business skills and livelihoods of highly motivated microentrepreneurs that lack access to the commercial banking system. | The SEM Fund, or the [http://www.sem-fund.org/ Senegal Ecovillage Microfinance Fund], is a nonprofit organisation dedicated to poverty alleviation by providing affordable business loans aimed at strengthening the business skills and livelihoods of highly motivated microentrepreneurs that lack access to the commercial banking system. | ||
− | <br> | + | <br> |
= Policy Framework = | = Policy Framework = | ||
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[http://planipolis.iiep.unesco.org/upload/Senegal/Senegal_PRSP_2006.pdf Senegegal´s Poverty Reduction Strategy Paper (PRSP)] pushes the poverty reduction agenda forward so as to meet the objective of raising economic growth to about 7 percent per year necessary to halve poverty by 2015, in line with the targets set out in the New Partnership for Africa's Development (NEPAD) and the Millennium Development Goals (MDGs). | [http://planipolis.iiep.unesco.org/upload/Senegal/Senegal_PRSP_2006.pdf Senegegal´s Poverty Reduction Strategy Paper (PRSP)] pushes the poverty reduction agenda forward so as to meet the objective of raising economic growth to about 7 percent per year necessary to halve poverty by 2015, in line with the targets set out in the New Partnership for Africa's Development (NEPAD) and the Millennium Development Goals (MDGs). | ||
− | The PRSP names are ten overall objectives for the development of the energy sector: <br> | + | The PRSP names are ten overall objectives for the development of the energy sector: <br> |
#develop the institutional framework and production capacity for energy | #develop the institutional framework and production capacity for energy | ||
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#improve access to oil and gas. | #improve access to oil and gas. | ||
− | == <span style="color: rgb(255,0,0)">Land ownership and participation</span> == | + | == <span style="color: rgb(255, 0, 0);">Land ownership and participation</span> == |
− | <span style="color: rgb(255,0,0)">1994: 33.4% 2002: 32.7% Agricultural population </span> | + | <span style="color: rgb(255, 0, 0);">1994: 33.4% 2002: 32.7% Agricultural population </span> |
== National Energy Sector Development Strategy == | == National Energy Sector Development Strategy == | ||
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#Reducing the energy demand and increasing the energy efficiency | #Reducing the energy demand and increasing the energy efficiency | ||
− | <br> | + | <br> |
== National Household Fuels Subsector Development Strategy == | == National Household Fuels Subsector Development Strategy == | ||
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#the dissemination of modern energy sources in rural areas (particularly for rural electrification issues). | #the dissemination of modern energy sources in rural areas (particularly for rural electrification issues). | ||
− | <br> | + | <br> |
== Climate Change == | == Climate Change == | ||
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Flooding of thermal plants is a real vulnerability that will need to be addressed. Already one plant has suffered severe damage from heavy rains. | Flooding of thermal plants is a real vulnerability that will need to be addressed. Already one plant has suffered severe damage from heavy rains. | ||
− | <br> | + | <br> |
= Key Problems Hampering Access to Modern Energy Services in Rural Areas = | = Key Problems Hampering Access to Modern Energy Services in Rural Areas = | ||
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*Although in principle the two concession models of ASER (large-scale concessions (PPER) and concessions based on local initiative (ERIL)), in conjunction with the tariffs set by the regulatory authority, ensure profitability for operators and thus continued maintenance (and hence sustainability), this was not yet proven in practice due to the small number of projects implemented and various delays in the administrative procedures. | *Although in principle the two concession models of ASER (large-scale concessions (PPER) and concessions based on local initiative (ERIL)), in conjunction with the tariffs set by the regulatory authority, ensure profitability for operators and thus continued maintenance (and hence sustainability), this was not yet proven in practice due to the small number of projects implemented and various delays in the administrative procedures. | ||
− | <br> | + | <br> |
== Obstacles for Off Grid Energy Technologies and Services == | == Obstacles for Off Grid Energy Technologies and Services == | ||
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*bureaucratic barriers | *bureaucratic barriers | ||
− | <br> | + | <br> |
− | == References<br> == | + | == References<br> == |
− | <references /> | + | <references /> |
[[EnDev-Senegal|EnDev Senegal]] | [[EnDev-Senegal|EnDev Senegal]] | ||
− | + | ||
+ | |} | ||
[[Category:Senegal]] [[Category:Country_Situation]] | [[Category:Senegal]] [[Category:Country_Situation]] |
Revision as of 10:13, 23 March 2011
Overview
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Energy SituationThe Senegalese energy sector is relatively small. The total final energy consumption in 2006 was about 2.3 Million TOE or 0.2 TOE per habitant, half of the all-africa average (0.45 TOE). Senegal’s energy balance is predominately biomass (58 %) and petroleum products (38 %). The lack of diversification is compounded by the absence of efficient technologies, a low density of distribution grid, as well as a lack of regulatory framework and weak financial structures. Electricity and coal account only for 7 % and 4 % respectively. The figure of biomass is of particular interest as biomass is only used for cooking, mostly in rural areas. This fact is represented by the high energy consumption of the household sector, which is responsible for 54 % of the total energy consumption. Within this sector firewood (58 %) and charcoal (26 %) are by far the most important sources of energy, followed by LPG (11 %), Electricity (4%) and lampoil (1 %). Senegal’s hydroelectric potential remains untapped. However with rainfalls predicted to decline by 17 % over the next 20-50 years, attention will have to be paid to hydro’s role in Senegal’s energy mix. The development of flow regime optimisation plans will help in this regard.
Energy Demand and Supply in the Household SectorThe following figure shows the development of the energy consumption in the sectors household, transport and industry.
BiomassThe described consumption pattern leads to a high pressure on Senegalese forests, especially as it´s unclear if the government will keep the high subsidies for LPG. And a big part of urban households still cooks with wood and charcoal. The use of biomass is one of the key factors responsible for the depletion of the country's forest stocks. In the medium term deforestation will create bottle-necks in the supply of cooking energy, particularly for the poorest households. Demand for charcoal derived from Senegalese forests is also likely to increase since there will be a phase-out of subsidies for butane gas in reaction to pressure from the West African Monetary Union, most likely prompting poorer households to return to their traditional fuel usage patterns. These traditional ways of cooking are generally characterised by very poor efficiency. In the 1970’s the government launched the national butanisation programme in order to re-place charcoal consumption by Liquefied Petroleum Gas (LPG) through subsidies and pro-motion campaigns. In 2002, around 71 percent of urban households in Senegal and even 88 percent of households in Dakar used LPG as primary cooking fuel (ANSD 2006). The Se-negal Ministry of Energy estimated the annual saving of firewood and charcoal to be 70,000 tons and 90,000 tons, respectively. Due to the high demand, the price of charcoal increased by 42 percent between 2005 and 2008, which is, however, still less than the increase in the ceiling price for LPG that increased by 48 and 63 percent for the two main bottle sizes (3.5 and 6 kg) respectively. Thereby, cooking energy prices soared disproportionately in light of consumer prices that only increased by 14 percent within the same time period. Some key figures:
The Senegalese government has recently published several policy orientations, thus beginning to address these extremely urgent issues. Nevertheless the Senegalese forest sector lacks institutional capacities and efficiency in order to launch basic reform processes and to implement sustainable changes on a large scale and to face deforestation.
ElectricitySince the year 2000 the electricity production is increasing annually by 7.2 % and was about 2,401 GWh in 2008,(see figure below), of which 82% of the total electricity generation is produced by petro power plants, 10% by hydropower plants, 2% by gas power plants, 2% by co-generation and 1% by renewable combustible and waste (e.g. biomass)[1]. Thereof 3.6 GWh are produced decentralized with PV application. In 2006 the households consumed 1,438 GWh or 144 kWh per person. But as the demand for electricity grows faster than the supply Senegal has to deal with serious problems. The state-owned electricity supplier SENELEC lacks an efficient organisational structure and investments in the power plants and in transmission lines in order to cope with increasing demand of 8 % annually. In addition, the reserve capacity decreased from 30 % to 11 % what causes scheduled or unscheduled outage of whole districts. Transmission losses, old thermal power plants and increasing oil prices result in high average power production costs of 60 FCFA/kWh. Anyhow, the electrification rate is relatively high: in urban areas it reaches 75 % and nationwide it´s around 45 %. Access to Electricity (% of households) 2000: 30% (58% urb.); 2006: 44% (77% urb.) On the other hand, in 2008 only about 17 % of rural households have access to electricity. Recently, the government set the target to increase rural electrification to 50 % by 2012. The goal seems very ambitious and explains the high ranking of rural electrification on the political agenda.
Electricity Generation, Transmission and DistributionElectricty Generation
The major part is 'generated' by diesel plants, but there are also gas-, steam- and gas-steam power plants. Senegal uses 60 MW of the 200 MW Manantali hydroelectric power plant at the border with Mali. As a result the electricity price strongly depends on the world market oil-price and the local Diesel price in both - national grid as well as in mini-grids. Anyway, due to subsidies the price is relatively low. Transmission
Length of Domestic Transmission and Distribution Lines 13477 km. Number and Length of Power Cuts:
The following map shows the current electricity transport lines as well as main power plants.
Distribution
Rural ElectrificationSenegal consist mostly of villages classified as small rural localities with less than 500 inhabitants (84 %). Such villages accounted for 46 % of the rural population in 2003. These communities are of less interest for private investors due to high investment costs and relatively low revenues. The Senegalese government developed a concessionaire-model to electrify rural areas. . It has two main instruments for action: In the PPER it was decided to divide the whole of Senegal into concession zones (9 concessions remain after a consolidation). International donors and the Senegalese government provide large amounts of money to supply the concessionaires with sufficient funds for their rural electrification activities. The donors involved are the World Bank, the German development bank KfW (1 concession) and the African Development Fund. The government provides up to 70 % of funds required for investment and engineering. The concessionaire is charged with 20 % and the users with 10 %. End users will be charged with cost covering tariffs. All donors have dedicated a share of their funds (ca. 15 %) for the installation of renewable energy systems. The first concession was awarded in 2008. Within the large concession areas municipalities can apply for ERIL loans (Electrification Rurale d’Initiative Locale – rural electrification through local initiatives) to implement electrification projects themselves. In ERILs, the same rules apply for subsidies as in the concessions (70 %/ 20 %/ 10 %). For all ERILs an application has to be prepared and submitted. Then, ASER and the respective concessionaire have to approve the project. The concessionaires will start their rural electrification activities soon, but they will only reach a small part of the rural population. Following ASER's current strategy, almost all villages that are not located in vicinity of medium tension power supply lines will not be supplied with electricity within the next 10 to 15 years. In the concession zones of KfW in the Peanut Basin and the Casamance, for example, about 1 million people in 2,600 villages will not be connected to the grid. Although in principle the two concession models of ASER (large-scale concessions (PPER), and concessions based on local initiative (ERIL)), in conjunction with the tariffs set by the regulatory authority, ensure profitability for the operators and thus continued maintenance (and hence sustainability), this was not yet proven in practice due to the small number of projects implemented and various delays in the administrative procedures. Barriers to rural electrification are, among others, low purchasing power of the consumers (implying a need for subsidies if a broad range of people is to be targeted), the small number of qualified enterprises intervening on the rural market, and the incongruity of rural electrification funds and demand. In addition, administrative processes in the rural electrification agency ASER are lengthy and intransparent to potential operators (necessity for capacity building of ASER staff).
Institutional Set Up and Actors in the Energy SectorPublic Institutions and ActorsIn 1997 Senegal began a reorganisation of its electricity sector following recommendations by the World Bank. It was decided to privatise the public utility SENELEC, to found the "Agence Sénégalaise d’Electrification Rurale" (ASER – Senegalese Agency for Rural Electrification) and to put in place the "Commission de Régulation du Secteur de l’Electricité" (CRSE – Regulatory Commission for the Electricity Sector). The Ministry of Energy (Ministère de l’Energie) as the lead agency is in charge of formulating, coordinating, and setting overall objectives, policies, strategies, and general directives for the entire energy sector. Furthermore it is authorized to issue directives to SENELEC. The CRSE is responsible for the distribution and monitoring of concession and licences (except those for rural areas), for the market control (control of competition) and it fixes the end-user prices for electricity. ASER was founded in 2000 and is the governmental agency which is charged with the task of rural electrification. It is financed by the Senegalese government and international donores (such as Worldbank, GTZ, KfW, AfDB, IsDB). ASER tends the concessions for rural areas for private investors and finances 70% of the projects (see Rural Electrification section). Urban electricity supply remained within the responsibility of SENELEC/CRSE.
Non Governmental Service Providers for Rural Areas in the Field of EnergyCommercial Service ProvidersDuring the 1990s, Senegalese companies sold about 2,000 PV systems per year, but the reorganisation of the electricity sector had a negative impact of the nascent Senegalese market for solar energy systems. Only 7 out of 18 solar companies survived the reform. However, 6 new companies have entered the market since 1998, raising the number of solar energy providers to 13. The companies are: SolarSenegal, ....The companies are mainly involved in installation and service for donor-funded systems while the market for unsubsidised systems is very small. Micro Finance Institutions
The ministry in charge of micro-finance ist the "Ministére de la Famille,de la Solidarité Nationale, de la Sécurité Alimentaire, de l'Entreprenariat Féminin, de la Micro Finance et de la Petite Enfance".
The SEM Fund, or the Senegal Ecovillage Microfinance Fund, is a nonprofit organisation dedicated to poverty alleviation by providing affordable business loans aimed at strengthening the business skills and livelihoods of highly motivated microentrepreneurs that lack access to the commercial banking system.
Policy FrameworkRenewable Energy LawA renewable energy law was signed by president Abdoulaye Wade on Dec, 20 2010 and is currently effective. The law is kept rather general. All details will be determined in by-laws which are currently being elaborated. The text of the law can be found here. Poverty Reduction Strategy and Energy PolicySenegegal´s Poverty Reduction Strategy Paper (PRSP) pushes the poverty reduction agenda forward so as to meet the objective of raising economic growth to about 7 percent per year necessary to halve poverty by 2015, in line with the targets set out in the New Partnership for Africa's Development (NEPAD) and the Millennium Development Goals (MDGs). The PRSP names are ten overall objectives for the development of the energy sector:
Land ownership and participation1994: 33.4% 2002: 32.7% Agricultural population National Energy Sector Development StrategyThe Lettre de Politique de Développement du Secteur de l’énergie (LPDSE) was approved in 2008 to cope with the fundamental problems of the energy sector. There are six main objetives:
National Household Fuels Subsector Development StrategyThe Lettre de Politique de développement du sous-secteur des combustibles domestiques (LPDSCD) was also approved in 2008 and aims at
Climate ChangeSenegal already has some key adaptation elements in place. The country has a national contingency plan that includes studies of natural disasters such as flooding, and of the areas where disasters might occur. Maps showing projected cloud cover and wind speeds are available. Biomass consumption is also being tackled with substantial research on biomass issues and promotion of improved woodstoves. Flooding of thermal plants is a real vulnerability that will need to be addressed. Already one plant has suffered severe damage from heavy rains.
Key Problems Hampering Access to Modern Energy Services in Rural AreasObstacles for Grid Based Rural Electrification
Obstacles for Off Grid Energy Technologies and Services
References
EnDev Senegal |