Thesis Abstract

Abstract
Access to clean and sustainable water sources is a critical global challenge, particularly in arid regions with limited freshwater availability. Desalination technologies offer a promising solution to address water scarcity by converting seawater or brackish water into potable water. Among various desalination methods, solar-powered desalination systems have gained significant attention due to their environmental sustainability and energy efficiency. This thesis focuses on the design and analysis of a solar-powered desalination system to provide a reliable and sustainable water production solution. Chapter One provides an introduction to the research topic, highlighting the background of the study, the problem statement, objectives of the study, limitations, scope, significance, structure of the thesis, and definitions of key terms. The chapter sets the stage for understanding the importance of developing solar-powered desalination systems for sustainable water production. Chapter Two presents a comprehensive literature review encompassing ten key aspects related to solar-powered desalination systems. The review covers the principles of desalination, solar energy utilization, system design considerations, membrane technologies, energy recovery methods, system efficiency enhancement techniques, economic viability, environmental impacts, and case studies of existing solar-powered desalination projects. Chapter Three outlines the research methodology employed in designing and analyzing the solar-powered desalination system. It includes the selection of system components, modeling and simulation techniques, experimental setup, data collection methods, and analysis procedures. The chapter provides insights into the systematic approach adopted to achieve the research objectives. Chapter Four delves into a detailed discussion of the findings obtained from the design and analysis of the solar-powered desalination system. It examines the performance metrics, energy efficiency, water production rates, system optimization strategies, cost analysis, and environmental considerations. The chapter critically evaluates the outcomes of the research and discusses implications for real-world applications. Chapter Five serves as the conclusion and summary of the project thesis, encapsulating the key findings, contributions to the field, implications for sustainable water production, and recommendations for future research directions. The chapter highlights the significance of solar-powered desalination systems in addressing water scarcity challenges and emphasizes the importance of advancing renewable energy technologies for a sustainable future. In conclusion, the design and analysis of a solar-powered desalination system for sustainable water production represent a crucial step towards achieving water security and environmental sustainability. This thesis contributes to the growing body of knowledge on renewable energy-driven desalination technologies and underscores the potential of solar-powered systems in meeting the water needs of arid regions. The findings presented in this research offer valuable insights for engineers, policymakers, and stakeholders working towards a more sustainable water future.

Thesis Overview