Abstract
This study examines the potential for repurposing water irrigation pumps as a sustainable energy source to generate electricity for the electrification and illuminating of agricultural fields and fishponds. Irrigation pumps are critical for maintaining sufficient water supply for farming operations, particularly during vital activities like harvesting. Conversely, the absence of a reliable nighttime lighting source exhibits challenges for farmers who often resort to flashlights/emergency lights. This research’s objective is to design a water wheel that can be tapped to an adapted water irrigation pump system assembly that can efficiently produce electricity, safeguarding safety and requiring minimal maintenance for farmers. This offers reliable and cost-effective source of electricity, reducing the need for external lighting devices and reducing operational costs for farmers. The research design adopts an experimental approach, evaluating the performance of the modified water irrigation pump system. Data collection includes measuring electricity output, electrical load assessment, and gathering user feedback through interviews and surveys. Statistical analysis was conducted to evaluate the system's effectiveness and practical significance. Overall, the research seeks to contribute to the sustainable development of rural communities by offering a viable solution to farmers' lighting needs and promoting the adoption of renewable energy practices in agricultural settings.