Thesis Abstract

**Abstract
** The increasing global demand for fresh water resources due to population growth and climate change has necessitated the development of sustainable and efficient water desalination technologies. In this context, the design and optimization of a solar-powered desalination system present a promising solution to address water scarcity issues in arid regions. This thesis focuses on investigating the feasibility and performance of such a system to provide a reliable source of clean drinking water. The research begins with a comprehensive introduction outlining the background of the study, problem statement, objectives, limitations, scope, significance, structure of the thesis, and definition of key terms. Subsequently, a thorough literature review is conducted to explore existing desalination technologies, solar energy applications, and optimization techniques. The review provides valuable insights into the current state of the art in solar-powered desalination systems and identifies potential areas for improvement. The research methodology chapter outlines the experimental setup, data collection methods, simulation tools, and optimization algorithms employed in the design and evaluation of the solar-powered desalination system. Key components such as solar collectors, energy storage systems, desalination units, and control systems are analyzed and optimized to maximize energy efficiency and water production. In the discussion of findings chapter, the performance of the solar-powered desalination system under various operating conditions is evaluated, and the results are compared against established benchmarks. The optimization process highlights the trade-offs between energy consumption, water output, system cost, and environmental impact, leading to the identification of optimal design parameters. Finally, the conclusion and summary chapter present the key findings, implications, and recommendations for future research and practical applications. The thesis concludes that the design and optimization of a solar-powered desalination system offer a sustainable and cost-effective solution for decentralized water production in remote areas with abundant solar resources. The integration of renewable energy sources with innovative desalination technologies holds great promise for addressing water scarcity challenges and promoting environmental sustainability. In conclusion, this research contributes to the advancement of solar-powered desalination technology and provides valuable insights for engineers, researchers, policymakers, and stakeholders interested in sustainable water management solutions. The findings of this study underscore the importance of harnessing solar energy for water desalination purposes and highlight the potential of solar-powered systems to meet the growing global demand for clean drinking water in a resource-efficient and environmentally friendly manner.

Thesis Overview