An experimental investigation of binary droplet collision dynamics was conducted, with emphasis on the off-center separation outcomes and surfactant effect on collision behavior of hydrocarbon fuels. First, six kinds of hydrocarbon fluid and Span 80/hydrocarbon fluid were used in the experiment. The results show that collision outcomes of hydrocarbon droplets exhibit six distinct regimes, namely (I) coalescence after minor deformation, (II) bouncing, (III) coalescence after substantial deformation, (IV) reflective separation, (V) stretching separation and, (VI) second reflexive separation. Then we base on a basic droplet collision model with some assumption properly to explain the second reflexive separation. The other part of the study, we will analyze the critical Weber number of the Span 80 /hydrocarbon and silicone oil /hydrocarbon to prove that viscosity is the only factor affected by Span 80. Finally, we conclude that higher viscosity will promote droplet bouncing but become trivial as it reaches a critical value.