Abstract
The Ethiopia energy mix is dominated by hydro-generation, which is largely reliant on water resources and their availability. This article aims to examine the impacts of severe drought on electric power generation by developing a Drought Scenario. OSeMOSYS (an open source energy modelling tool) was used to perform the analyses. The results were then compared with an existing reference scenario called “New Policy Scenario”. The study looked at how power generation and CO2 emissions would be altered in the future if reservoir capacity was halved due to drought. Taking this into account, the renewable energy share decreased from its 90% in 2050 to 81% in 2065, which had been 98% to 89% in the case of New Policy Scenario. In another case, CO2 emissions also increased from 0.42 Mt CO2 in 2015 to 7.3 Mt CO2 in 2065, a 3.3 Mt CO2 increase as compared to the New Scenario. The results showed how a prolonged period of drought would reduce the river flows and lead to an energy transition that may necessitate the installation of other concurrent alternative power plants. The study suggested ways to approach energy mix, particularly for countries with hydro-dominated power generation and those experiencing drought.
Subject
Fluid Flow and Transfer Processes,Computer Science Applications,Process Chemistry and Technology,General Engineering,Instrumentation,General Materials Science
Reference33 articles.
1. FDRE. Ethiopia’s Climate-Resilient Green Economy Green economy strategy,2011
2. MoWIE. National Electrification Program 2.0 National Electrification; 2019https://www.africa-energy-forum.com/article/ethiopia-national-electrification-program-20-report.
3. Africa Energy Outlook Report; 2019; p. 20https://www.iea.org/reports/africa-energy-outlook-2019.
4. Impact of drought phenomenon on renewable and nonrenewable energy systems in the ASEAN countries;Ibrahim;Chem. Eng. Trans.,2021
5. Resilience of the Eastern African electricity sector to climate driven changes in hydropower generation