Thesis Abstract

Abstract
This thesis presents the design and fabrication of a solar-powered mobile air conditioning system, aimed at providing a sustainable and energy-efficient cooling solution for mobile applications. The increasing demand for cooling systems, coupled with the need for environmentally friendly technologies, has led to the development of innovative solutions such as solar-powered air conditioning. The project focuses on harnessing solar energy to power an air conditioning system that can be integrated into various mobile units, such as vehicles, caravans, and portable shelters. The introduction sets the stage for the study by highlighting the importance of sustainable cooling solutions and the potential benefits of utilizing solar power for air conditioning applications. The background of the study provides a comprehensive overview of existing air conditioning technologies, emphasizing the limitations and environmental impacts associated with conventional systems. The problem statement identifies the gap in current cooling solutions and underscores the need for a more sustainable and efficient alternative. The objectives of the study outline the specific goals and targets to be achieved through the design and fabrication of the solar-powered mobile air conditioning system. The limitations and scope of the study define the boundaries and constraints within which the research is conducted, ensuring a focused and feasible approach. The significance of the study highlights the potential impact of the solar-powered system on energy conservation, environmental sustainability, and the promotion of renewable energy technologies. The structure of the thesis provides a roadmap of the chapters and sections that follow, outlining the organization and flow of the research content. Lastly, the definition of terms clarifies the key concepts and terminology used throughout the thesis, ensuring a common understanding of the project scope and objectives. The literature review delves into existing research and developments in the field of solar-powered air conditioning, exploring relevant studies, technologies, and applications that inform the design and fabrication of the mobile system. The research methodology details the approach, tools, and procedures used to design, prototype, and test the solar-powered air conditioning system, including simulation, modeling, and experimental validation. The discussion of findings presents a comprehensive analysis of the system performance, efficiency, and feasibility, highlighting the key results, challenges, and insights gained from the design and fabrication process. The conclusion summarizes the research outcomes, achievements, and implications of the solar-powered mobile air conditioning system, emphasizing its potential for sustainable cooling solutions in mobile applications. In conclusion, the design and fabrication of a solar-powered mobile air conditioning system represent a significant contribution to the field of renewable energy technologies and sustainable cooling solutions. The innovative integration of solar power into mobile air conditioning systems offers a promising solution to reduce energy consumption, lower carbon emissions, and promote environmental sustainability. The thesis showcases the feasibility and effectiveness of the solar-powered system, demonstrating its potential to address the growing demand for efficient and eco-friendly cooling solutions in mobile applications.

Thesis Overview