Unveiling Interdependencies in Infrastructure Transitions: Cross- sectoral Learning in the Water-Energy Nexus

Abstract

Cross-domain coordination and nexus thinking are increasingly recognized as vital for addressing complex sustainability challenges in infrastructure systems. Transitions in one infrastructure system often reshape others through socio-technical interactions, revealing critical interdependencies. However, research on these interdependencies during transitions frequently focuses on technological innovation within specific regimes (e.g., renewables in energy) and lacks insights into how strategic ambitions are translated into operational realities. In this study, two different infrastructure regimes, as electricity and drinking water, will be investigated which will explore how the energy and water transitions influence each other by focusing on two Dutch public utility providers to identify cross-learning opportunities. Using the theoretical lens of socio-technical interdependencies and multi-regime interactions, the research investigates the mechanisms behind implementing electrification for renewables and sustainable water management strategies, as well as the common and unique challenges these systems face in achieving their transition goals. Drawing on 23 semi-structured interviews and secondary data, the study employs qualitative system dynamics models to highlight key interdependencies and challenges. The research identifies four critical interaction moments: (1) competition for limited space and resources, (2) symbiosis in aging infrastructure renovation, (3) integration through shared funding and political support, and (4) spill-over effects from grid congestion and social prioritization. By uncovering lock-in mechanisms, interdependencies, and cross-sectoral interactions, the study provides insights into fostering collaboration within infrastructure systems undergoing transitions.