How humidity affects the performance of atomizing micro sprinklers

Humidity is an important environmental factor that cannot be ignored in the performance of atomizing micro-sprinklers. Atomizing micro-sprinklers are widely used in fields such as agriculture, gardening and landscape irrigation, so it is crucial to have a deep understanding of the impact of humidity on their performance.

Humidity has a significant impact on the size and quality of the water mist particles produced by atomizing micro-sprinklers. As humidity increases, the moisture content in the air increases, affecting the size and distribution of the water mist particles sprayed by atomizing micro-sprinklers. In a high humidity environment, the water mist particles may be larger and heavier, and difficult to be blown away by the wind, which helps to increase the coverage and uniformity of the water spray. In contrast, in a low humidity environment, the water mist particles are finer and easily blown away by the wind, affecting the uniformity and coverage of the water spray.

Humidity also affects the water spraying efficiency and water use efficiency of atomizing micro-sprinklers. In a high humidity environment, water mist particles are easily absorbed by plant leaves, improving water use efficiency. In addition, high humidity slows down the evaporation rate of water mist, prolongs the water residence time, and is conducive to plant water absorption. In a low humidity environment, water mist particles are easily absorbed or evaporated by the air, reducing water use efficiency and may cause water shortage in plants.

Humidity also affects the working stability and life of atomizing micro-sprinklers. In a high humidity environment, water mist particles are prone to water accumulation or condensation inside the nozzle, which may cause blockage or corrosion, affecting normal operation. Therefore, when using atomizing micro nozzles in a high humidity environment, maintenance and cleaning must be strengthened to ensure system stability and reliability. In a low humidity environment, water mist particles are prone to drying or freezing, affecting the normal operation of the nozzle, and moisturizing measures must be taken to maintain normal working conditions.