Author(s)

Wei Deng^1,2,3,4, Ruirui Zhang^1,2,3,4, Gang Xu^1,2,3,4, Longlong Li^1,2,3,4, Qin Tang^1,2,3,4, Min Xu^1,2,3,4

¹Beijing Research Center of Intelligent Equipment for Agriculture, Beijing, China.
²National Research Center of Intelligent Equipment for Agriculture, Beijing, China.
³Key Laboratory of Agri-Informatics, Ministry of Agriculture, Beijing, China.
⁴Beijing Key Laboratory of Intelligent Equipment Technology for Agriculture, Beijing, China.

Spray nozzle is a key component in equipment for plant protection and water-saving irrigation. The fan nozzle is a kind of spray nozzle, which is widely used in agriculture and forestry for irrigation and control of diseases, insects, and weeds. In consideration of the increasing velocity of the flow field, when the hydraulic pressure remains unchanged and the flow path becomes narrow, and because the increase of the velocity of spray drops can increase the penetrability of spray drops into the plant canopy, a kind of new fan nozzle with multi entries and simple inner structure was designed and the influences of its structure parameters on the inner flow field were analyzed using FLUENT software. The experimental results showed that the influence of the throat length on the inner flow field of the nozzle was insignificant, while the orifice grooving degree had a significant effect on inner flow field of the nozzle. The larger the grooving degree was, the smaller the pressure and velocity of internal flow field of the nozzle. The nozzle throat length had little influence on the velocity change of internal flow field. Positive correlation was shown between throat length and flow field velocity.

Fan Nozzle, Orifice, Spray, FLUENT, Multi-Entry, Inner Flow Field

Deng, W. , Zhang, R. , Xu, G. , Li, L. , Tang, Q. and Xu, M. (2019) The Influences of the Nozzle Throat Length and the Orifice Grooving Degree on Internal Flow Field for a Multi-Entry Fan Nozzle Based on FLUENT. Engineering, 11, 777-790. doi: 10.4236/eng.2019.1111052.