Thesis Abstract

Abstract
This thesis focuses on the design and optimization of a smart cooling system for electric vehicles, aiming to enhance their performance and efficiency. Electric vehicles are becoming increasingly popular due to their environmentally friendly nature and energy efficiency. However, one of the challenges facing electric vehicle technology is the effective management of heat generated during operation, particularly in high-performance electric vehicles. The cooling system plays a crucial role in maintaining optimal operating temperatures for various vehicle components, ensuring long-term reliability and efficiency. The primary objective of this study is to design and optimize a smart cooling system that can effectively manage the thermal loads in electric vehicles. This research will involve a comprehensive review of existing cooling technologies and methodologies used in electric vehicles to identify potential areas for improvement. Through detailed analysis and simulation studies, the proposed smart cooling system will be designed to address specific challenges related to heat dissipation and thermal management in electric vehicles. Chapter 1 provides an introduction to the research topic, presenting the background of the study, the problem statement, objectives, limitations, scope, significance, and structure of the thesis. Chapter 2 comprises a comprehensive literature review covering ten key aspects related to cooling systems in electric vehicles. This review will explore existing research, technologies, and methodologies used in electric vehicle cooling systems to provide a solid foundation for the proposed smart cooling system design. Chapter 3 outlines the research methodology, detailing the approach, tools, and techniques that will be used to design and optimize the smart cooling system. This chapter will include information on data collection, analysis, simulation studies, and experimental validation to ensure the effectiveness and reliability of the proposed system. Additionally, the chapter will discuss factors such as materials selection, component integration, and system control strategies. Chapter 4 presents a detailed discussion of the findings obtained from the design and optimization of the smart cooling system. This chapter will analyze the performance metrics, thermal management capabilities, energy efficiency, and overall effectiveness of the proposed system. The discussion will highlight the strengths and limitations of the system design, providing insights into potential areas for further improvement and optimization. Chapter 5 concludes the thesis with a summary of the key findings, implications of the research, and recommendations for future work. The conclusion will highlight the significance of the proposed smart cooling system in enhancing the performance and efficiency of electric vehicles, contributing to the advancement of sustainable transportation technologies. In summary, this thesis aims to address the critical need for efficient thermal management in electric vehicles through the design and optimization of a smart cooling system. By improving heat dissipation and thermal control, the proposed system has the potential to enhance the overall performance, reliability, and sustainability of electric vehicles, paving the way for a greener and more energy-efficient transportation future.

Thesis Overview