Abstract
{ "background": "Persistent inefficiencies and high capital costs in power-distribution networks hinder reliable electricity supply. A rigorous, data-driven framework for evaluating the cost-effectiveness of equipment systems is required to inform infrastructure investment and maintenance strategies.", "purpose and objectives": "This paper aims to develop and apply a panel-data econometric methodology to measure the cost-effectiveness of power-distribution equipment systems. The objective is to identify the technical and operational factors that significantly drive lifetime costs versus performance.", "methodology": "We construct a novel panel dataset from utility operational records. Cost-effectiveness is modelled using a two-way fixed effects estimator. The core specification is $C{it} = \\alphai + \\lambdat + \\beta P{it} + \\gamma X{it} + \\epsilon{it}$, where $C{it}$ is the normalised annualised cost, $P{it}$ is a performance index, and $X_{it}$ are technical covariates. Inference is based on cluster-robust standard errors.", "findings": "The analysis reveals that transformer loading ratio is the most significant determinant of cost-effectiveness. A 10% increase in the average loading ratio above optimal design parameters is associated with a 15–22% increase in annualised costs, a finding robust to different model specifications.", "conclusion": "The methodological approach provides a replicable framework for asset-performance management. The results demonstrate that operational practices, particularly sustained overloading, are a primary driver of poor cost-effectiveness in the studied systems.", "recommendations": "Utilities should prioritise load-balancing interventions and refine technical specifications for new equipment procurement based on the identified cost-performance trade-offs. Regulatory frameworks should incorporate these metrics for performance benchmarking.", "key words": "power distribution, cost-effectiveness, panel data, fixed effects, asset management, infrastructure", "contribution statement": "This work provides the first application of a panel-data econometric model to evaluate the cost-effectiveness of power-distribution equipment in this context, introducing a replicable methodology