The variety of clean energy sources has risen, involving many resources, although their fundamental principles remain consistent in terms of energy generation and pollution reduction. The using of hydropower system for energy production also has a dynamic impact in which it utilizes to harness the water for the purpose of energy production. As it is important to overcome the problem of accidents in the highway and rural areas in the case of server rainfall and flood by implementation a smart system that used for energy production. This paper aims to develop a controlled hydropower system installed in the drainage sinks allocated in highway roads used for producing. The proposed system consists of storage unit represented by pipes used for the purpose of water collecting, it's coupled with Francis's turbine and DC generator. A controlled unit is utilized to control the discharging process of collected water in which float and rotation sensors are connected to identify the water level and generator movement to allot the solenoid valve for the purpose of water collecting and discharging based on assigned point. According to the elementary findings, a power output of 20 watts is observed for every 10-second interval. In the event of a significant flood occurrence, the system will continue to operate, resulting in an output energy accumulation of 4 KWATT per hour. The quantity of energy available is adequate to supply electricity for a duration of one hour to direct current light-emitting diode (DC-LED) devices, or it can alternatively be stored in batteries.