Abstract:
This project explores the potential of generating electricity from municipal wastes using an
innovative approach that combines heating panel and heating sensor technology. The primary
objective is to convert waste into a sustainable energy source, thereby addressing waste
management issues and contributing to renewable energy solutions. To achieve this, the project
utilizes a waste-to-energy system designed with heating panels that incinerate municipal waste
heat to produce electricity. Heating sensor technology is integrated to monitor and optimize the
process, ensuring efficient energy conversion and safe operation since it acts as the switch. The
methodology involves several stages: designing the heating panel system, integrating the heating
panel and heating sensor, and conducting experiments to evaluate system performance. Municipal
waste samples were processed to measure the amount of electricity generated and to assess the
environmental impact of emissions. Data collected and analyzed to optimize the operational
parameters for maximum efficiency.
The results demonstrate that the system is capable of generating a significant amount of electricity
from municipal wastes, with an average energy conversion efficiency of 15%. The integration of
sensor technology proved crucial in maintaining optimal conditions, thereby enhancing the overall
efficiency and safety of the process. Additionally, emission levels were found to be within
acceptable environmental standards, indicating that the system is both effective and
environmentally friendly.
In conclusion, this project successfully demonstrates the feasibility of using municipal wastes as a
source of renewable energy through the innovative use of heating panel and sensor technology.
The results indicate that such a system can contribute to sustainable waste management and energy
production. Future work will focus on scaling up the system and further optimizing its efficiency
and emission control capabilities.
