Abstract

The integration of automatic control systems into fluid pumping systems has been a growing trend in recent years. However, the existing literature has identified several challenges, including computational complexity, system adaptation, and economic sustainability. In this study, we propose a novel approach to control fluid pumping systems based on user-defined time intervals and adjustable fluid levels. The system is designed to be adaptable to a wide range of user setups while minimizing computational complexity through the implementation of a final governing equation. The proposed system is expected to be costeffective due to the simple and commercially available setup. Our findings demonstrate that the proposed approach offers significant advantages, as it eliminates human errors, saves time, and improves the fluid pumping system's performance. The study contributes to advancing the field of automatic control systems and offers a practical solution that can be applied to domestic fluid pumping systems and beyond