MENA compared to Europe: The influence of land use, nuclear power, and transmission expansion on renewable electricity system costs
Journal article, 2021

Most studies that examine CO2-neutral, or near CO2-neutral, power systems by using energy system models investigate Europe or the United States, while similar studies for other regions are rare. In this paper, we focus on the Middle East and North Africa (MENA), where weather conditions, especially for solar, differ substantially from those in Europe. We use a green-field linear capacity expansion model with over-night investment to assess the effect on the system cost of (i) limiting/expanding the amount of land available for wind and solar farms, (ii) allowing for nuclear power and (iii) disallowing for international transmission. The assessment is done under three different cost regimes for solar PV and battery storage. First, we find that the amount of available land for wind and solar farms can have a significant impact on the system cost, with a cost increase of 0–50% as a result of reduced available land. In MENA, the impact on system cost from land availability is contingent on the PV and battery cost regime, while in Europe it is not. Second, allowing for nuclear power has a minor effect in MENA, while it may decrease the system cost in Europe by up to 20%. In Europe, the effect on system cost from allowing for nuclear power is highly dependent on the PV and battery cost regime. Third, disallowing for international transmission increases the system cost by up to 25% in both Europe and MENA, and the cost increase depends on the cost regime for PV and batteries. The impacts on system cost from these three controversial and policy-relevant factors in a decarbonized power system thus play out differently, depending on (i) the region and (ii) uncertain future investment costs for solar PV and storage. We conclude that a renewable power system in MENA is likely to be less costly than one in Europe, irrespective of future uncertainties regarding investment cost for PV and batteries, and policies surrounding nuclear power, transmission, and land available for wind- and solar farms. In MENA, the system cost varies between 42 and 96 $/MWh. In Europe, the system cost varies between 51 and 102 $/MWh.

Electricity system modeling

Weather conditions

Nuclear power

Public concern

Transmission

Variable renewable energy

Author

Hanna Ek Fälth

Chalmers, Space, Earth and Environment, Physical Resource Theory, Physical Resource Theory 2

Dan Atsmon

Chalmers, Space, Earth and Environment, Physical Resource Theory

Lina Reichenberg

Chalmers, Space, Earth and Environment, Physical Resource Theory, Physical Resource Theory 2

Aalto University

Vilhelm Verendel

Chalmers, Computer Science and Engineering (Chalmers), CSE Verksamhetsstöd, Data Science Research Engineers

Energy Strategy Reviews

2211-467X (ISSN)

Vol. 33 100590

Driving Forces

Sustainable development

Areas of Advance

Energy

Subject Categories

Other Environmental Engineering

Energy Systems

Other Electrical Engineering, Electronic Engineering, Information Engineering

DOI

10.1016/j.esr.2020.100590

More information

Latest update

1/11/2021