When a happy tree’s leaves and branches plucker is operated in field, it is not easy to blow the cut leaves and branches into a collecting bag by the wind provided from the end of ducts. Therefore, computational fluid dynamics technique is used in this study to analyze the flow field in air ducts for a happy tree’s leaves and branches plucker, and the end of ducts design is changed in order to blow the happy tree’s leaves and branches into a collecting bag easily. The inlet and outlet wind speeds from a wind tunnel will be obtained, and the loss rate of outlet velocity will then be calculated. A software called ANSYS/FLOTRAN CFD is used to build a 2D simplified model in order to find a suitable turbulence model. Subsequently, an actual 3D model will then be applied. Different outlet angles, outlet diameter sizes, outlet pipe lengths and inlet locations will be considered as parameters. In computer simulation, the zero-equation turbulence model was suitable for this air ducts in numerical simulation. An actual 3D model was confirmed to a good agreement with the experimental results. Furthermore, the study established the relationship between different parameters (outlet angles, outlet diameter sizes, outlet pipe lengths and inlet locations) and loss rates of outlet velocity. Considered with practical applications, the outlet angle θ changed to 15 degrees was a better choice. And the outlet angle ω changed to 75 degrees had a better result. Additionally, an outlet pipe length of 20 cm had a smaller influence on loss rates of outlet velocity. The outlet diameter size would affect wind areas and speeds in practical solutions. By different inlet locations simulation, it was found that the better location was in the side.