IEA (2024), World Energy Outlook 2024, IEA, Paris https://www.iea.org/reports/world-energy-outlook-2024, Licence: CC BY 4.0 (report); CC BY NC SA 4.0 (Annex A)
Exploring uncertainties in the Outlook
Considering potential variations from the STEPS
- While the Stated Policies Scenario (STEPS) provides the direction of travel for the energy system based on today’s policy settings, a wide range of factors influence the energy sector and there are many uncertainties. In this chapter we explore the possible impact of several uncertainties on the outlook in the STEPS.
- We do this by analysing the issues and building sensitivity cases around some of the most important and topical uncertainties affecting the energy sector. This includes how variations in the pace of growth of electric vehicles (EVs) and in the use of plug-in hybrids might impact energy demand. We also consider variations in the assumed pace of renewables deployment and assess potential responses to liquefied natural gas oversupply. And we consider uncertainties about how the development of data centres and artificial intelligence, the pace of appliance efficiency improvements, and more frequent and intense heat waves might affect electricity demand.
- Oil demand could be 2-3% higher or lower in 2035 than in the STEPS in the sensitivity cases. EV sales were the largest uncertainty analysed: a slower uptake of EVs could raise oil demand by 1.2 million barrels per day (mb/d) in 2030, mainly in the United States and Europe, and by more than 2 mb/d by 2035. By contrast, enhanced utilisation of EV manufacturing capacity could lead to more EVs being sold in emerging market and developing economies outside China, reducing oil demand by 1.8 mb/d in 2035.
- Natural gas demand could be affected by a liquefied natural gas surplus of around 130 billion cubic metres (bcm) in 2030 in the STEPS. Fully absorbed, this would lift global gas demand by up to 3% in 2035. The gas could help accelerate coal-to-gas switching in industry, but it could also delay the deployment of wind power and heat pumps. Conversely, natural gas demand could be 4% lower in 2035 from slower electricity demand growth and faster solar PV uptake.
- Electricity demand could move up or down in our sensitivity cases by up to 1 700 TWh to 2035, or about 5%. In the high case, natural gas- and coal-fired power would adjust up or down as needed in the near term, while renewables would play a bigger role after 2030. In the low case, electricity demand would still rise rapidly.
- Our analysis indicates that, even combining all the high cases, global peaks for oil, natural gas and coal demand would still occur within a few years of those for STEPS, albeit at higher absolute levels: up 1.7 mb/d for oil, 140 bcm for natural gas, and 37 million tonnes of coal equivalent for coal. Taking all the uncertainties together, CO2 emissions could be up to 1.0% higher than in the STEPS in 2035, or as much as 3.6% lower, and in all cases would peak within a few years of the STEPS.
Sensitivity analyses relative to the STEPS trajectory
Sensitivity cases explore how much divergence there could be from the STEPS trajectory for some of the most important and topical uncertainties affecting the energy sector.
110 mb/d
0.6
2030
0.07
0.6 mb/d
0.02
2.1
1.2
-0.4
-0.07
-0.3
-1.8
Less oil-to-gas
switching in power
-0.3
PHEV less electric
mode operation
-0.3
Slower EV growth
STEPS
Faster EV growth
PHEV more electric
mode operation
More oil-to-gas
switching in power
PHEV = Plug-in hybrid electric vehicle
85 mb/d
2024
2035
40 000 TWh
STEPS
2030
696
492 TWh
417
269
93
171
337
175
-231
-431
-108
-401
-170
-883
More heat waves
Faster EV growth
Faster data centre growth
Lower appliance
efficiency gains
STEPS
Slower EV growth
Slower data centre growth
Higher appliance
efficiency gains
10 000 TWh
2024
2035
5 000 bcm
2030
14 bcm
16
13
26
8
9
30
42
62
53
-53
-97
-36
-18
-69
Slower heat pump growth
More coal-to-gas
switching in industry
-16
Faster oil-to-gas
switching in power
Delayed wind deployment
Higher electricity demand
sensitivities
STEPS
Lower electricity demand
sensitivities
Faster solar PV growth
Slower oil-to-gas
switching in power
3 500 bcm
2024
2035