How does nozzle design affect the atomization effect of atomizing micro sprinkler

In modern irrigation systems, the design and performance of nozzles are directly related to the effective use of water resources and the growth effect of crops. Multiple design elements of nozzles, including aperture, shape, internal structure and material selection, have an important impact on the atomization effect. 

Nozzle aperture and fineness of atomized particles
Atomizing micro sprinkler nozzle aperture is a key parameter that affects the fineness of atomized particles. Generally speaking, the smaller the aperture, the greater the shear force that water molecules are subjected to when passing through the nozzle, and the smaller the droplet size formed. This fine water mist can effectively increase the water absorption rate of crops while reducing water evaporation loss, thereby improving the overall efficiency of irrigation. However, too small an aperture may also cause nozzle clogging, which affects the stability and service life of the system. Therefore, in the nozzle design process, we determined an optimal aperture range through rigorous experiments and optimization to ensure a balance between the fineness of water mist particles and the smoothness of the nozzle.

Nozzle shape and uniformity of atomization
The shape design of the nozzle plays a vital role in the uniformity of the atomization effect. A reasonable shape can effectively guide the water flow to spray at the best angle and speed, thereby forming a uniformly distributed water mist. Our company adopts a streamlined design. This design concept not only reduces the resistance of the water flow inside the nozzle, but also significantly improves the uniformity and coverage of the water mist. In addition, the streamlined design can also effectively reduce the noise and energy consumption generated during the operation of the system, thereby improving the overall performance and ensuring efficient irrigation under different environmental conditions.

Nozzle internal structure and atomization stability
The internal structure design of the nozzle is crucial to the stability of the atomization effect. Our company uses advanced precision machining technology to ensure the accuracy and smoothness of the internal structure of the nozzle. This design can effectively reduce the turbulence and eddy current of the water flow inside the nozzle, so that the water flow can be sprayed in a more stable manner to form a stable water mist. In addition, we also use special coating technology to improve the corrosion resistance and wear resistance of the nozzle, ensuring that the nozzle maintains excellent atomization performance during long-term use. This stability not only improves the irrigation effect, but also extends the service life of the equipment.

Nozzle material and atomization durability
The selection of nozzle material also plays an important role in the atomization effect. Our company uses high-quality corrosion-resistant materials such as stainless steel and titanium alloy to ensure that the nozzle can maintain good performance in various harsh irrigation environments. These materials not only have excellent corrosion resistance, but also have high strength and hardness, which can effectively resist the erosion and wear of water flow, and significantly extend the service life of the nozzle. By optimizing the material selection, we ensure the durability and reliability of the nozzle in different environments, thereby providing customers with better irrigation solutions.