Thesis Abstract

Abstract
Access to clean and safe drinking water is a fundamental human right. However, many rural communities around the world still lack access to potable water sources, leading to various health issues and economic challenges. Desalination technologies have emerged as a promising solution to provide clean water, especially in arid regions where freshwater sources are scarce. This thesis focuses on the design and analysis of a solar-powered desalination system tailored for rural communities, aiming to address the water scarcity issues they face. The research begins with a comprehensive review of the existing literature on desalination technologies, solar energy applications, and water treatment processes. This review lays the foundation for understanding the current state-of-the-art technologies and identifying gaps that the proposed system aims to address. The literature review also explores the socio-economic factors influencing water access in rural communities, highlighting the importance of sustainable and cost-effective solutions. The methodology chapter outlines the systematic approach taken to design and analyze the solar-powered desalination system. Various components such as solar collectors, desalination units, energy storage systems, and water distribution networks are considered in the system design. Simulation tools and modeling techniques are utilized to optimize system performance, taking into account factors such as water demand, solar irradiance, and system efficiency. The findings chapter presents the results of the design and analysis process, including the performance metrics of the proposed system. Factors such as water production rate, energy efficiency, system reliability, and cost-effectiveness are evaluated to assess the feasibility and sustainability of the system for rural communities. Comparative analyses with conventional desalination technologies provide insights into the advantages and limitations of the solar-powered approach. The discussion chapter delves into the implications of the findings, addressing technical, economic, and social considerations related to the implementation of the solar-powered desalination system. The potential environmental impacts, maintenance requirements, and scalability of the system are discussed, highlighting key challenges and opportunities for future research and development. In conclusion, the research demonstrates the viability of a solar-powered desalination system as a sustainable solution to provide clean water for rural communities. The system offers a renewable and decentralized approach to water treatment, leveraging solar energy to address water scarcity challenges in off-grid areas. The thesis contributes to the growing body of knowledge on renewable energy applications in water treatment and underscores the importance of interdisciplinary approaches to sustainable development. Keywords Desalination, Solar Energy, Rural Communities, Water Scarcity, Sustainable Development.

Thesis Overview