By using the spinning disk system, we can observe the flow electrification in aqueous solutions. Experiments were performed by varying several system parameters such as radius of spinning disk (1cm、1.5cm、2cm、4cm), material of the spinning disk (aluminum、copper、stainless steel、acrylic), spinning angular velocity (100-600 rpm), the vertical distance between the spinning disk and the bottom of the Faraday measuring vessel (1.5cm、6.15cm), and the different volumes of working fluid (1600cc、2200cc). The influences of varying the different system parameters during flow electrification on the streaming current development performances were investigated, documented, and illustrated. The generation of charge was thought to occur when turning on the motor, which caused relative motion between the spinning disk and the aqueous solution. The relative motion between the spinning disk and the liquid strips off the electric charges within the electric double layer at the solid-liquid interface and thus generates free electrostatic charges in the bulk flow which were collected and measured. Results showed that the Reynolds number of the rotating disk flow field depended on several important parameters such as the radius of disk and the angular velocity of rotation. The current increased as the Reynolds number increased when the Reynolds number was roughly below 4000. As the Reynolds number exceeded 4000, the current decreased as the Reynolds number was further increased, which were results likely consistent with those reported in previous literature.