Life cycle assessment of renewable energy in Africa

Abstract

Renewable energy capacity in Africa is expected to reach 169.4 GW by 2040 from 48.5 GW in 2019. The growth of the sector necessitates a re-evaluation of the environmental impacts of renewable energy on the continent to inform mitigation decisions. This study presents the first literature review of the life cycle assessments of renewable energy in Africa and gives an in-depth analysis of environmental issues that are specific to Africa's renewable energy sector. It performs a systematic assessment of literature on the topic, examines the state-of-the-art, and critically evaluates environmental impacts on the continent, implications of methodological choices, gaps, challenges, and compares the findings with other regions. Climate change has been extensively researched in the studies, due to decarbonisation being among policy priorities. Other relevant impact categories such as resource depletion in non-closed loop systems, ecotoxicity from recycling emissions, or ecosystem degradation from landfill leachate are not fully explored despite the end-of-life being potentially a major burden for the continent. Choice of functional units and multifunctional processes give wide variations in the magnitude of environmental impacts for similar technologies and, therefore, have implications for decision-making. For example, similar biodiesel jatropha systems with energy- and mass-based functional units differ by around 16% in their climate change potentials. To ensure that life cycle assessment results apply to mitigation decisions in Africa, studies should consider methodological issues such as lack of transparency in inventories, incomplete coverage of life cycle stages and impact categories, and missing databases adapted for the African context.