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Abstract

This study explores energy consumption patterns in residential buildings, focusing specifically on the air conditioning systems and their intricate relationship with technology, occupant behavior, and environmental impact. Utilizing a mixed-methods approach, quantitative data is gathered on energy usage from utility companies and homeowner surveys, complemented by qualitative insights from interviews and focus groups. The results indicate that households equipped with air conditioning units face significantly higher electricity bills, especially during peak summer months, largely due to the inefficiencies of older systems and the common issue of oversized units. Technological advancements, including high-efficiency air conditioning systems and smart thermostats, are crucial in reducing energy consumption. Furthermore, occupant behaviors-such as adjusting thermostats and maintaining systems-have a notable effect on energy usage. This study underscores the necessity for greater awareness of energy-efficient technologies and highlights the importance of informed decision-making among homeowners. By synthesizing perspectives from engineering, sociology, and environmental science, the research enhances the understanding of energy consumption dynamics in residential contexts and presents actionable recommendations for fostering sustainable practices.

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