{ "background": "Water treatment infrastructure in many developing nations faces persistent challenges in operational efficiency and resource allocation. Systematic, quantitative evaluations of technological and managerial interventions are required to inform capital investment and policy.", "purpose and objectives": "This case study aims to methodologically assess the efficiency gains attributable to a major national programme of technological upgrades in water treatment facilities. The objective is to quantify the causal impact on key performance indicators using a robust quasi-experimental design.", "methodology": "A difference-in-differences (DiD) model was applied, comparing a treatment group of facilities receiving advanced filtration and automation systems with a control group of similar, non-upgraded facilities. The core statistical model is $Y{it} = \\beta0 + \\beta1 \\text{Treat}i + \\beta2 \\text{Post}t + \\delta (\\text{Treat}i \\times \\text{Post}t) + \\epsilon_{it}$, where $\\delta$ captures the causal effect. Inference is based on cluster-robust standard errors at the facility level.", "findings": "The DiD estimator $\\delta$ indicated a statistically significant positive effect, with upgraded plants achieving a 22% increase in average daily output per unit of energy consumed post-intervention. The estimated gain of 0.15 cubic metres per kilowatt-hour (95% CI: 0.11, 0.19) was robust to multiple model specifications.", "conclusion": "The application of the DiD model provides rigorous, causal evidence that targeted technological modernisation can substantially enhance the operational efficiency of water treatment infrastructure in this context.", "recommendations": "Future infrastructure programmes should incorporate quasi-experimental evaluation designs from the outset to validate impact. Prioritise investments in automation and real-time monitoring systems, supported by tailored operator training to sustain efficiency gains.", "key words": "difference-in-differences, causal inference, water treatment efficiency, infrastructure evaluation, operational performance", "contribution statement