Thesis Abstract

Abstract
This thesis focuses on the design and optimization of an energy-efficient Heating, Ventilation, and Air Conditioning (HVAC) system for commercial buildings. The increasing energy consumption and environmental concerns associated with HVAC systems in commercial buildings have necessitated the development of more sustainable and energy-efficient solutions. The research aims to address this challenge by proposing a novel approach to designing and optimizing HVAC systems to enhance energy efficiency and reduce operational costs while maintaining occupant comfort levels. The study begins with a comprehensive review of the existing literature on HVAC systems, energy efficiency, and sustainability in commercial buildings. Various factors influencing the energy performance of HVAC systems, such as building design, system components, control strategies, and maintenance practices, are explored to identify opportunities for improvement. The research methodology involves a multi-faceted approach that includes simulation modeling, performance analysis, and optimization techniques. The proposed HVAC system design integrates advanced technologies, such as variable refrigerant flow systems, energy recovery ventilation, and smart controls, to maximize energy efficiency and indoor air quality. The findings of the study demonstrate the potential energy savings and environmental benefits of the optimized HVAC system compared to conventional systems. The results highlight the importance of proper design, sizing, and operation of HVAC systems in achieving energy efficiency goals in commercial buildings. The discussion of the findings delves into the practical implications and challenges of implementing energy-efficient HVAC systems in commercial buildings. Factors such as initial costs, payback periods, maintenance requirements, and occupant behavior are considered in the context of sustainable building design and operation. In conclusion, the research emphasizes the significance of energy-efficient HVAC systems in reducing carbon emissions, improving building performance, and enhancing occupant comfort. The study contributes to the existing body of knowledge on sustainable building design and provides valuable insights for architects, engineers, building owners, and policymakers seeking to promote energy efficiency in commercial buildings. Overall, this thesis offers a holistic approach to the design and optimization of energy-efficient HVAC systems for commercial buildings, with the potential to drive significant energy savings and environmental benefits in the built environment.

Thesis Overview