Solar power is emerging as the most economical and scalable energy source, with photovoltaic (PV) technologies expected to supply a major share of global electricity by 2050. However, the long-term performance, reliability and operation and maintenance (O&M) of PV systems are strongly influenced by local climatic conditions. Current research and testing approaches often remain insufficient to assess PV systems under real-life, climate-specific stressors.
European research infrastructures (RIs) have developed advanced PV testing capabilities, but broader climate validation is needed for both current and emerging technologies. At the same time, regions with high solar potential, such as Latin America and the Caribbean (LAC), often lack dedicated facilities for long-term PV performance assessment. Addressing these gaps requires coordinated international collaboration.
The CACTUS project responds to this challenge by fostering bi-regional cooperation between Europe and LAC. By connecting world-class RIs, scientific expertise and technological capabilities, CACTUS aimed to develop a sustainable ecosystem for climate-adapted PV research, including climate-specific testing protocols, advanced O&M methodologies and harmonised datasets.
The project’s overall objective was to improve the understanding of PV system behaviour under diverse climatic conditions, enhance PV testing infrastructures, and develop best practices for O&M and life cycle analysis (LCA) adapted to site-specific contexts. Through these actions, CACTUS supports reliable, bankable and sustainable PV deployment, contributing to the EU’s renewable energy and climate objectives.