A Creative Solution: Analyzing the Viability of Integrating Solar Panel Technology to Apartment Windows
Presentation Type
Poster Presentation
In Person or Zoom Presentation
In-Person
Campus
Daytona Beach
Status
Student
Faculty/Staff Department
Aeronautical Science
Student Year and Major
2028 Aeronautical Science
Presentation Description/Abstract
Nowadays, urban areas face pressure to decrease their carbon footprint while meeting high energy demands from big residential buildings. Especially in Florida, where sunlight is abundant with high energy consumption, it is crucial to develop efficient energy solutions. The research will examine the feasibility of integrating solar panel technology to windows as an alternative to traditional glass windows.
This analysis will determine whether solar window panels can be effectively and efficiently installed to generate enough electricity in a multi-unit residential setting for Florida. Using a literature review of current photovoltaic glass technology and research journals from the U.S. Department of Energy and sustainability, we will provide sufficient insight into the cost and long-term viability of this technology. Moreover, an evaluation of statistics such as an average of apartment building surface area, occupancy, and energy usage will provide us with a ratio of gathered energy and energy usage.
Different from most studies that focus on rooftop solar panels, this project will investigate vertical solar energy conversions in populated environments. Although findings show how initial investments are significant compared to the average traditional glass windows, these technologies can offset energy usage, reduce carbon emissions, and supply nighttime power.
These results will be presented through a poster presentation, highlighting the capability of integrating renewable technology into apartment buildings. Overall, the study shows a creative approach to self-sustaining infrastructures, promoting energy efficiency and long-term sustainability.
Keywords
Solar, Photovoltaic glass, renewable energy, urban areas, sustainability, carbon footprint, population density, efficiency
A Creative Solution: Analyzing the Viability of Integrating Solar Panel Technology to Apartment Windows
Nowadays, urban areas face pressure to decrease their carbon footprint while meeting high energy demands from big residential buildings. Especially in Florida, where sunlight is abundant with high energy consumption, it is crucial to develop efficient energy solutions. The research will examine the feasibility of integrating solar panel technology to windows as an alternative to traditional glass windows.
This analysis will determine whether solar window panels can be effectively and efficiently installed to generate enough electricity in a multi-unit residential setting for Florida. Using a literature review of current photovoltaic glass technology and research journals from the U.S. Department of Energy and sustainability, we will provide sufficient insight into the cost and long-term viability of this technology. Moreover, an evaluation of statistics such as an average of apartment building surface area, occupancy, and energy usage will provide us with a ratio of gathered energy and energy usage.
Different from most studies that focus on rooftop solar panels, this project will investigate vertical solar energy conversions in populated environments. Although findings show how initial investments are significant compared to the average traditional glass windows, these technologies can offset energy usage, reduce carbon emissions, and supply nighttime power.
These results will be presented through a poster presentation, highlighting the capability of integrating renewable technology into apartment buildings. Overall, the study shows a creative approach to self-sustaining infrastructures, promoting energy efficiency and long-term sustainability.