Projected wind and solar energy potential in the eastern Mediterranean and Middle East in 2050

Pantelis Kiriakidis; Theodoros Christoudias; Jonilda Kushta; Jos Lelieveld

doi:10.1016/j.scitotenv.2024.172120

Projected wind and solar energy potential in the eastern Mediterranean and Middle East in 2050

Sci Total Environ. 2024 Jun 1:927:172120. doi: 10.1016/j.scitotenv.2024.172120. Epub 2024 Apr 3.

Authors

Pantelis Kiriakidis¹, Theodoros Christoudias², Jonilda Kushta¹, Jos Lelieveld³

Affiliations

¹ The Cyprus Institute, 20 Konstantinou Kavafi, Nicosia, 1645 Nicosia, Cyprus.
² The Cyprus Institute, 20 Konstantinou Kavafi, Nicosia, 1645 Nicosia, Cyprus. Electronic address: t.christoudias@cyi.ac.cy.
³ The Cyprus Institute, 20 Konstantinou Kavafi, Nicosia, 1645 Nicosia, Cyprus; Max Plank Institute, Hahn-Meitner-Weg, Mainz 55128, Rhineland-Palatinate, Germany.

PMID: 38575031
DOI: 10.1016/j.scitotenv.2024.172120

Abstract

The ongoing energy transition from conventional fuels to renewable energy sources (RES) has given nations the potential to achieve levels of energy self-sufficiency previously thought unattainable. RES in the form of utility-scale solar and wind energy are currently the leading alternatives to fossil-fuel generation. Precise location siting that factors in efficiency limitations related to current and future climate variables is essential for enabling the green energy transition envisioned for 2050. In this context, understanding and mapping the intermittency of RES provides insights to energy system operators for their seamless integration into the grid. The Eastern Mediterranean and Middle East (EMME) region has the potential to harness vast amounts of RES. The scarcity of observations from weather station networks and the lack of private sector incentives for transitioning to RES mean that relevant, supporting weather and climate studies have been limited. This study employs the Weather Research and Forecasting model with Chemistry (WRF-CHEM) to estimate the RES technical potential of EMME countries and map the hourly generation profiles per source and country, simulated for the reference year 2015 and considering future conditions. The findings indicate that by 2050, seven countries within the region could transform into net energy exporters, while the remaining nine might remain reliant on energy imports or fossil fuels. Egypt emerges as a "powerhouse", potentially enjoying a potential surplus energy generation of 76 GW per hour, whereas the United Arab Emirates may face an annual deficit of 955 TWh. Further, we derived the hourly generation profiles for wind and solar during different seasons. Four dominant patterns were identified. We find a complementary relationship for six countries, and for four countries, a substitute relationship between solar and wind energy generation. Greece stands out with a near-constant wind energy source, which would facilitate its integration into the national grid.

Keywords: Eastern Mediterranean and Middle East; Energy generation profiles; Renewable energy sources; Utility-scale solar energy; Weather research and forecasting model with chemistry; Wind energy.