Context: Nigeria has Africa’s largest population and economy, but Nigerians consume 144 kwh per capita annually, only 3.5% as much as South Africans.1 With only 12 GW installed, and typically just one-third of that delivered, Nigerian power production falls far short of demand, which is a primary constraint on economic growth. Self-generation using dirty diesel generators is exceedingly common in Nigeria, and bear a significant economic and environmental cost.2 But exactly how big is the demand-supply gap? And what does future demand look like?
How large is power demand in Nigeria?
Electricity demand estimates and projections for Nigeria suggest that demand is already substantial and increasing rapidly due to population and income growth.
- Nigeria is one of the most underpowered countries in the world, with actual consumption 80% below expectations based on current population and income levels.3
- Peer countries consume far more electricity per capita than Nigeria does currently. Ghana consumes over twice as much, Tunisia over ten times, and South Africa almost thirty times as much.
- Self-generation in Nigeria is extremely prevalent; nearly 14GW capacity exists in small scale diesel and petrol generators, and nearly half of all electricity consumed is self-generated. This implies a huge unserved demand.
- Due to a population boom and a large gap in electrification, the World Bank projects electricity demand will have grown by a factor of over 5 between 2009 and 2020, and 16.8 by 2035.4
Given this, we can assume that Nigeria’s demand gap is significant, though exactly how large is disputed. The significant differences in these estimates demonstrate the difficulty, and importance, of accurate demand forecasting.
The below estimates show large variance in projections for peak power demand mainly due to differences in scenario assumptions and existing infrastructure during study periods. Projecting power demand in Nigeria is challenging due to difficulty in estimating the large amount of electricity produced by small and unregulated petrol/diesel-powered generators, and in quantifying suppressed demand. Looking at available demand estimates for 2015 (Table 1), Nigeria’s on-grid electricity demand seems to be about 4 – 12 times the total electricity distributed on the grid (at 3200 MW, or 3.2 GW). Even at optimistic capacity factors and assumptions about deliverability, Nigeria needs well over 63GW of new generation to satisfy unmet demand.5 Until then, expensive and dirty self-generation will remain pervasive.
|Year||2015||2020||2025||2030||Methods and Main Assumptions|
|J. Olayande & A. Rogo (2008) &
Renewable Master Plan
|24||45||80||116||Uses simulations models: Model for Analysis of Energy Demand (MAED) based on scenario assumptions:
GDP growth of 7% p.a; Manufacturing as the main growth driver and to account for 15% GDP by 2030 (from 6% in 2000); Per capita electricity consumption to rise to 4,000 kWh/annum (from less than 200kWh/annum); Population growth rate at 1.80%.
|Energy Commission of Nigeria
|28||51||77||119||Uses simulations models: Model for Analysis of Energy Demand (MAED) based on scenario assumptions:
GDP growth of 7% p.a; Manufacturing as the main growth driver and to account for 15% of GDP by 2030 (from 6% in 2005); Per capita electricity consumption increase to 4,000kWh; Consistent with the MDG objective of reducing poverty by half by 2015.
|O. Ezennaya, O. Isaac, U.
Okolie, O. Ezeanyim (2014)
|15||17||18||20||Uses stochastic extrapolations method based on Time Series Analysis of past demand load|
|Agusto & Co. (2007)||41||88||–||–||Uses simulations models: Model for Analysis of Energy Demand (MAED) based on scenario assumptions|
|Tractebel Engineering (2007)||–||11||–||24||Uses simulations models: Model for Analysis of Energy Demand (MAED) based on scenario assumptions|
|World Bank (2013)||≈100 TWH||≈150 TWH||≈250 TWH||≈400 TWH||Calculates both on-grid and off-grid demand in Terawatts hour (TWH) using scenario analysis.
Uses cross-country evidence of the relationship between income and electricity use (both on a per capita basis) to estimate total on- and off- grid demand
- World Bank (2019). Electric Power Consumption (kWh per capita). Retrieved from: https://data.worldbank.org/indicator/NY.GDP.MKTP.KD.ZG?locations=NG
- IEA (2017), Energy Access Outlook: From Poverty to Prosperity, IEA.
- Todd Moss and Gailyn Portelance. “Do African Countries Consume Less (or More) Electricity than Their Income Levels Suggest?”
- R. Cervigni, J. Rogers, and M. Henrion (2018), Low Carbon development: Opportunities for Nigeria, The World Bank
- GIZ (2015), The Nigerian Energy Sector An Overview with a Special Emphasis on Renewable Energy, Energy Efficiency and Rural Electrification. Nigerian Energy Support Programme (NESP)
- Olayande, J.S & Rogo, A.T. (2008), Electricity Demand and Supply Projections for Nigeria, Abuja: Energy Commission of Nigeria
- Sambo, A. S., 2008. Paper presented at the “National Workshop on the Participation of State Governments in the Power Sector: Matching Supply with Demand”, 29 July 2008, Ladi Kwali Hall, Sheraton Hotel and Towers, Abuja.
- O. Ezennaya, O. Isaac, U. Okolie, O. Ezeanyim (2014), Analysis Of Nigeria‘s National Electricity Demand Forecast (2013-2030), International Journal Of Scientific & Technology Research 3(3)