Optimizing Home Gutter Systems for Sustainable Rainwater Harvesting

Nor Azilah Ab. Aziz; Rosmaria Ariffin; Mohamad Ilhans Herman

Authors

Nor Azilah Ab. Aziz Department of Electrical Engineering, Politeknik Kota Bharu, KM 24 Kok Lanas, 16400 Ketereh, Kelantan, Malaysia
Rosmaria Ariffin Department of Electrical Engineering, Politeknik Kota Bharu, KM 24 Kok Lanas, 16400 Ketereh, Kelantan, Malaysia
Mohamad Ilhans Herman Department of Electrical Engineering, Politeknik Mukah, KM 7.5 Jalan Oya, 96400 Mukah, Sarawak, Malaysia

Keywords:

Rainwater harvesting, water sustainability, home gutter system, filtration mechanism

Abstract

The increasing demand for freshwater resources necessitates the development of intelligent and efficient rainwater harvesting systems to ensure long-term sustainability, particularly for residential applications. This study introduces an optimized home gutter system incorporating embedded control logic, rain-triggered flushing, and solar-powered automation to enhance effective water capture and quality. The system uses sensor-actuator coordination to detect rainfall, flush debris, and divert clean water into storage tanks without manual intervention. Under controlled rainfall simulation conditions, the prototype demonstrated a 30% increase in effective rainwater collection compared to conventional passive systems. The integration of a real-time filtration mechanism, coupled with an autonomous flow control unit, minimizes contamination risks and system maintenance. The findings underscore the potential of embedded automation and renewable energy in creating low-cost, sustainable, and scalable solutions for household water management, aligned with smart environmental infrastructure goals.