Concentrated solar power (CSP) driven desalination systems: A techno-economic review

The rising global demand for freshwater, coupled with the urgency to transition away from fossil fuel-based energy systems, has intensified research into sustainable desalination solutions. However, conventional desalination methods reliant on fossil fuels are highly energy-intensive, presenting substantial obstacles to achieving a low-carbon energy transition. Concentrated solar power (CSP) presents a compelling alternative, particularly for arid regions with high direct normal irradiation (DNI). This review provides a comprehensive analysis of recent advancements in CSP-driven desalination technologies, with a particular focus on key methods such as multi-stage flash distillation (MSF), multi-effect distillation (MED), membrane distillation (MD), and innovative hybrid systems. It systematically categorizes solar desalination technologies based on their functional components, economic feasibility, and research progress, highlighting advancements in hybrid system designs, thermal performance optimization, and economic evaluations. Although CSP desalination has experienced significant growth over the past five years, challenges remain in developing cost-competitive solutions, particularly in addressing parasitic losses during integration with conventional power systems. This review identifies potential strategies to overcome these challenges, including optimized system configurations, the integration of thermal energy storage, the adoption of advanced power cycles, and the hybridization of MED-RO systems. Realizing the full potential of CSP for sustainable freshwater production will require advances in materials, system integration, and hybrid configurations. A multidisciplinary approach—combining thermal sciences, desalination engineering, power systems, and techno-economic analysis, alongside supportive policies—is key to establishing CSP desalination as a viable solution for high-DNI, water-scarce regions. This review provides a timely and comprehensive overview of current progress and future directions, offering practical insights for advancing sustainable desalination technologies.