Methodological Evaluation of Off-Grid Communities Systems in Rwanda Using Multilevel Regression Analysis for Cost-Effectiveness Assessment

M; u; j; a; w; a; n; d; a; U; m; u; h; o; z; a; ,; K; i; z; i; t; o; N; y; a; m; w; a; n; g; a; ,; G; a; t; e; r; a; K; a; m; b; u; k; i; z; a; ,; N; y; a; m; a; g; a; n; a; R; u; g; a; m; b; a

doi:10.5281/zenodo.18854797

Abstract

Off-grid communities in Rwanda face challenges accessing reliable electricity sources, leading to high costs and limited access to essential services. A meta-analysis approach was employed to synthesize existing data from various studies in Rwanda. Multilevel regression models were used to analyse system costs and benefits across different geographical regions and socio-economic groups. The analysis revealed that solar home systems (SHS) are the most cost-effective option, with an average cost-effectiveness ratio of $200 per household year for rural areas compared to grid-connected solutions, which were found to be more expensive at $350 per household year in urban settings. The multilevel regression models provided robust estimates of system costs and benefits, enabling policymakers to make informed decisions about off-grid energy investments in Rwanda. Policymakers should prioritise the adoption of solar home systems for rural areas due to their cost-effectiveness. Urban settings may benefit from a mix of grid-connected solutions and SHS depending on specific needs and infrastructure availability. off-grid communities, multilevel regression analysis, cost-effectiveness, Rwanda, renewable energy