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русскийTemperature is an important factor affecting changes in the physical properties of liquids, and is directly related to key characteristics of the liquid, such as viscosity, surface tension and volatility. Changes in these physical properties have a significant impact on the spray effect of the Fine Mist Sprayer, which in turn affects its performance in various applications.
Viscosity changes and spray effects
Viscosity is an important indicator to measure the fluidity of liquid, and its size directly affects the behavior of the liquid during the spraying process. In a low temperature environment, the viscosity of the liquid increases significantly and the fluidity decreases, resulting in a decrease in the dispersion ability of the droplets during spraying, the spray effect becomes uneven, and the coverage range is limited. Relatively speaking, under high temperature conditions, the viscosity of the liquid decreases and the fluidity increases, allowing the liquid to be more effectively atomized into fine droplets, and the spray effect is more delicate and uniform.
Changes in surface tension
Surface tension is the property of a liquid when it comes into contact with a solid or gas. Under low temperature conditions, the surface tension of the liquid is higher, and the droplets are more likely to remain larger in size during formation and dispersion, resulting in a rough spray effect. On the contrary, high temperature will reduce the surface tension of the liquid, promote the refinement and uniform dispersion of droplets, and thus improve the fineness of the spray effect.
Increased volatility
As the temperature increases, the volatility of the liquid increases significantly, and the solvent in the droplets evaporates rapidly after spraying. This process shortens the spraying interval, thus affecting the continuity and stability of the spray. The rapid evaporation of the solvent not only takes away a large amount of heat, but also causes the droplet temperature to drop rapidly, further affecting the stability of the spray effect.
Effect of temperature on nebulizer performance
Temperature changes not only affect the physical properties of the liquid, but also have a direct impact on the overall performance of the sprayer. In a high temperature environment, the internal components of the sprayer may deform due to thermal expansion and contraction, causing nozzle blockage or leakage, which significantly reduces the spray effect. In addition, high temperature will accelerate the wear of sprayer parts, shorten their service life, and bring additional maintenance costs to users.
Ningbo Yuanjie's response strategy
In order to effectively deal with the impact of temperature on the spraying effect of Fine Mist Sprayer, Ningbo Yuanjie has adopted a series of targeted optimization strategies:
Optimize nozzle design: By improving the structure and materials of the nozzle, its stability and durability in high temperature environments are enhanced, and the risk of nozzle deformation and leakage caused by thermal expansion and contraction is reduced.
Dynamically adjust the spray pressure: According to the characteristics of the viscosity and surface tension of the liquid changing with temperature, the spray pressure is adjusted in real time to ensure the best spray effect under different temperature conditions.
Strengthen heat dissipation design: Design a heat dissipation structure inside the sprayer to improve heat dissipation efficiency, reduce the risk of component deformation and wear caused by high temperature, and ensure long-term stable operation of the equipment.
Provide temperature adaptability guidance: Provide users with professional temperature adaptability guidance, and suggest choosing appropriate spray strategies and parameter settings under different temperature conditions to ensure the best spray effect and user experience.
