Electricity sector in Nigeria

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The electricity sector in Nigeria generates, transmits and distributes megawatts(MW) of electric power that is significantly less than what is needed to meet basic household and industrial needs. Nigeria has twenty-three (23) power-generating plants connected to the national grid with the capacity to generate 11,165.4 MW of electricity. [1] [2] These plants are managed by generation companies (GenCos), independent power providers, and Niger Delta Holding Company. In 2012, the industry labored to distribute 5,000 MW, very much less than the 40,000 MW needed to sustain the basic needs of the population. [3] This deficit is also exacerbated by unannounced load shedding, [4] [5] partial and total system collapse and power failure. [3] To meet demand, many households and businesses resort to purchasing generating sets to power their properties; [3] this source of energy provided 6,000 MW in 2008. [3] Nigeria has a chronic electricity shortage that has affected the country for many years. [6] [7] In 2022, its power grid collapsed twice in one week. [8] [9]

Contents

Historical Background

Development of electric power industry

Electricity generation in Nigeria began in Lagos in 1886 with the use of generators to provide 60 kW. [10] In 1923, tin miners installed a 2 MW plant on the Kwali River; six years later, the Nigerian Electricity Supply Company, a private firm, was established near Jos to manage a hydroelectric plant at Kura to power the mining industry. Then, another private enterprise was established in Sapele by United Africa Company to power the activities of the African Timber and Plywood Company. [11] Between 1886 and 1945, electric power generation was relatively low, with power provided primarily to Lagos and other commercial centers such as mining industries in Jos and Enugu. [11] The colonial government created an electricity department within the Public Works Department, which then installed generating sets in many cities to serve government reservation areas and commercial centers. [3] In 1950, the Legislative Council of Nigeria began moves to integrate the electricity industry when it enacted a law to establish the Electricity Corporation of Nigeria (ECN) with the duties of developing and supplying electricity. [10] ECN took over the electricity sector activities within PWD and the generating sets of Native Authorities. In 1951, the firm managed 46 MW of electricity. [11] Between 1952 and 1960, the firm established coal-powered turbines at Oji and Ijora, Lagos. It began making preliminary plans for a transmission network to link the power-generating sites with other commercial centers. [11] In 1961, ECN completed a 132 kV transmission line linking Lagos to Ibadan via Shagamu; in 1965, this line was extended to Oshogbo, Benin, and Ughelli to form the Western System. [10]

In 1962, a statutory organization, the Niger Dams Authority (NDA), was formed to build and maintain dams along River Niger and Kaduna River, NDA went on to commission a 320 MW hydropower plant at Kainji in 1969, with the power generated sold to ECN. In 1972 NDA and ECN merged to form the National Electric Power Authority (NEPA). NEPA was the major electricity firm in Nigeria until power sector reforms resulted in the creation of the Power Holding Company of Nigeria (PHCN) and later the privatization of electricity generation and distribution. [10]

Generation

Electricity in Nigeria is generated through thermal and hydropower sources. The primary source of electricity generation comes from fossil fuels, especially gas, which accounts for 86% of the capacity in Nigeria, with the remainder generated from hydropower sources. [12] Before the beginning of the Fourth Nigerian republic, power generation was mainly the federal government's responsibility through NEPA. However, reforms started in 2005 with the Electric Power Sector Reform Act (EPSRA) signing, which opened up the industry to private investors. [12] In 2010, the Nigerian Bulk Electricity Trading Plc (NBET) was established as a credible off-taker of electric power generation companies. [13] In 2014, the sector was privatized with three groups having the responsibility of providing power. By November 2013, the privatization of all generation and 11 distribution companies was completed, with the Federal Government retaining the ownership of the transmission company. [14]

Month/YrAvailable capacity(MW)Average daily generation
January 20187,4573,744 [15]
February 20187,5154,005
March 20187,4754,079
April 20187,2503,999
May 20188,0343,827

Generation companies (GenCos)

Nigeria has twenty-three (23) power-generating plants connected to the national grid with the capacity to generate 11,165.4 MW of electricity. [16] These plants are managed by generation companies (GenCos), independent power providers, and Niger Delta Holding Company. The primary independent power plants before the power sector reforms are Shell-owned Afam VI (642MW), Agip-built Okpai plant (480 MW), and AES (270 MW). The third sector is the Nigerian National Integrated Power Project, NIPP, a project that was initiated in 2004 to fast-track the development of new power plants in the country. The majority of the new proposed plants are gas-powered plants. In 2014, the proposed capacity of NIPP plants was 5,455 MW.

CompanyTypeCapacity
Kainji Jebba Power PlcHydro1,330MW [1]
Ughelli Power PlcGas942MW [16]
Sapele Power PlcGas1,020 [16]
Shiroro Power PlcHydro600MW [16]
Afam Power PlcGas987.2MW [16]
Niger Delta Power Holding CompanyGas5,455 [16]
IPP'sGas1,392 [16]
Egbin Power PlcGas1,020MW [16]

Power supply deficit

Current electricity generated in Nigeria needs to be improved to meet the demand needs of households and businesses; as a result, Nigeria has a low per capita consumption of electricity, 109 kWh in 2006. [17] Besides this deficit, between 1970 and 2009, available power plants operated below optimal levels, and electricity generated was lost in transmission. While electricity capacity was 5600 MW in 2001, the power generated fell as low as 1750 MW. The hydropower plants in Kainji, Shiroro, and Jebba tend to have higher capacity utilization rates, while the gas-powered plant was affected by infrastructural and maintenance issues. [17] Between 1980 and 1996, the country witnessed a significant gap in electricity generated and electricity billed, which indicates electricity loss in transmission and theft from unauthorized connections. Since the coming of democracy in 1999, the loss ratio has reduced from 46.9% in 1996 to 9.4% in 2008. Vandalism of equipment, lack of proper maintenance of transformers, poor management, and corruption are a few of the reasons Nigeria has produced suboptimal electricity. [17]

Distribution

In Nigeria, electrical power generated by the GenCos is used to power the grid through the Transmission Company of Nigeria (TCN). Electricity is distributed through the transmission of electric power from TCN to the distribution companies (DisCos) primary substations, then to the secondary distribution system, and finally to the end consumers. [18] Alternating Current (AC) is used for the transmission of electric power; this is because AC can be easily changed from one voltage to another with a slight loss of energy with the use of a transformer. [19] The electric power is transmitted at high voltage (33kV) to the DisCos' primary substations in the six geopolitical zones based on the load allocation formula. The high voltage received is then stepped down to medium voltage (11kV) with the use of transformers. This medium voltage power is now transmitted to secondary distribution transformers near the consumer's residence. The secondary distribution transformers further step down the medium voltage to customers' consumption capacity (low voltage, usually 220 to 240V). However, some customers, for example, industries and commercial customers like Flour mills, Refineries, steel rolling mills, cement factories, rice mills, etc., may receive their power directly from the primary distribution line depending on their power utilization. [20]

Distribution companies (DisCos)

Nigeria has eleven distribution companies. [21]

Distribution companyDistricts
Kaduna Electricity Distribution Company Plc Kaduna including the districts of Makera, Doka, Birnin Kebbi, Gusau, Sokoto, and Zaria
Yola Electricity Distribution Company Plc Yola, Maiduguri, Taraba, and Damaturu districts
Enugu Electricity Distribution Company PlcAba, Abakaliki, Abakpa, Awka, Ogui, Onitsha, Owerri, Nnewi, and Umuahia
Abuja Electricity Distribution Company Plc Abuja, Minna, Suleja, Lokoja, and Lafia Districts
Ibadan Electricity Distribution Company Plc Abeokuta, Dugbe, Molete, Ijebu-Ode, Osogbo, Ilorin, Sango-Ota, and Oyo
Jos Electricity Distribution Company Plc Jos, Makurdi, Bauchi, and Gombe districts
Eko Electricity Distribution Company Plc Festac, Ijora, Lagos Island, Ajah, and Badagry
Ikeja Electricity Distribution Company Plc Ikeja, Shomolu, Akowonjo, Ikorodu, Oshodi and Abule-Egba
Port Harcourt Electricity Distribution Company Plc Calabar, Diobu, Ikom/Ogoja, Borikiri, Uyo and Yenegoa
Benin Electricity Distribution Company Plc Ado-Ekiti, Afenonesan, Akure, Asaba, Akpakpava, 'Ugbowo and Warri
Kano Electricity Distribution Company Plc Nassarawa, Dala, Katsina, Dutse, Kumbotso, Funtua, and Dakata districts

DisCos are saddled with the following responsibilities; receiving energy from GenCos via TCN Plc, distributing energy to the end consumers, metering, billing of energy, revenue collection, revenue remittance to Nigeria Bulk Electricity Trading (NBET) Plc for energy received, remittance of revenue to TCN Plc for services provided, receiving complaints from customers, compliance to NERC's Service Level Agreements (SLAs), customers enlightenment ('Electricity Update') through local radio stations in the thirty-six (36) states and the Federal Capital Territory (FCT) Abuja and load demand forecast. [22]

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References

  1. 1 2 "Generation". www.nerc.gov.ng. Retrieved 2019-01-08.
  2. "Implementation of sub-scrotal MRV System in Grid Connected Electricity Sub-Sector in Nigeria". MRV Africa - Greenhouse Gas Monitoring Reporting and Verification. Retrieved 2022-03-30.
  3. 1 2 3 4 5 Adedeji, Adesina Akanji (2016-03-11). Spatial exploration and analysis of electricity poverty: a case study of Ibadan, Southwestern, Nigeria (Thesis thesis). Department of Geography.
  4. Oguguo, I (8 April 2020). "'When They Bring Light' Policy". thecable.ng. The Cable. Retrieved 1 May 2020.
  5. Oguguo, I. "Nigeria's Electricity Providers And COVID Uncertainties". Issuu.com. THISDAY. Retrieved 1 May 2020.
  6. AfricaNews (2022-03-23). "Oil rich, electricity poor. What will it take to solve Nigeria's energy crisis?". Africanews. Retrieved 2023-02-02.
  7. "Renewable Energy as Viable Solution to Nigeria's Electricity Crisis – THISDAYLIVE". www.thisdaylive.com. Retrieved 2023-02-02.
  8. Online, Tribune (2022-03-19). "Nigeria has to have world's worst electricity crisis". Tribune Online. Retrieved 2023-02-02.
  9. "Nigeria's electricity grid collapses second time in less than 48 hours". The Guardian Nigeria News - Nigeria and World News. 2022-03-15. Retrieved 2023-02-02.
  10. 1 2 3 4 "The Genesis of Power Generation in Nigeria". The Nigerian Economist. 1: 40. October 1987.
  11. 1 2 3 4 Simpson, E. S. (July 1969). "Electricity Production in Nigeria". Economic Geography. 45 (3): 239–257. doi:10.2307/143093. ISSN   0013-0095. JSTOR   143093.
  12. 1 2 Oyewo, Ayobami; Aghahosseini, Arman; Bogdanov, Dmitirii; Breyer, Christian (2018-12-15). "Pathways to a fully sustainable electricity supply for Nigeria in the mid-term future". Energy Conversion and Management. 178: 44–64. doi:10.1016/j.enconman.2018.10.036. ISSN   0196-8904. S2CID   106320954.
  13. "History". nerc.gov.ng. Retrieved 2022-04-09.
  14. "Electricity: Investments in sector surpasses N2trn post-privatisation". Vanguard News. 2022-03-01. Retrieved 2022-04-09.
  15. "NERC Quarterly Reports". www.nerc.gov.ng. 2018. Retrieved 2019-01-09.
  16. 1 2 3 4 5 6 7 8 "A Guide to the Nigerian Power Sector" (PDF). KPMG. September 2016.
  17. 1 2 3 Oseni (2011-12-01). "An analysis of the power sector performance in Nigeria". Renewable and Sustainable Energy Reviews. 15 (9): 4765–4774. doi:10.1016/j.rser.2011.07.075. ISSN   1364-0321.
  18. "Nigerian Electricity Supply Industry".
  19. Awe, Olumuyiwa; Okunola, O O (1992). Comprehensive Certificate Physics. Ibadan: University Press Plc. p. 406. ISBN   9782492892.
  20. "NESI". NERC. Retrieved 2022-05-03.
  21. "Inside Nigeria's electricity companies and their perpetual loss-making | Premium Times Nigeria". 2021-08-23. Retrieved 2022-03-28.
  22. "NERC Quarterly Reports 2021 Q2". www.nerc.gov.ng. 2021. Retrieved 2022-03-12.
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