The key parameters of the disperser include the following aspects:
Power: The power of the disperser refers to the power provided by the driving equipment (such as motors), usually in kilowatts (kW). The size of the power will affect the driving capacity and dispersing effect of the disperser. Usually, the greater the power, the stronger the driving capacity of the disperser, and it can handle higher viscosity materials.
Rotational speed: The rotational speed of the disperser refers to the rotational speed of the disperser plate or mixer, usually in revolutions per minute (rpm). The choice of rotational speed will affect the dispersing effect and shear force of the disperser. Higher rotational speed can produce greater shear force and tangential speed, which is conducive to the effective dispersion of solid particles or mixtures, but excessive rotational speed can lead to excessive shearing and damage to the material.
Dispersion disk diameter: The diameter of the dispersion disk is also an important parameter, which determines the amount of material handled by the disperser and the dispersion effect. A larger dispersion disk diameter can usually handle more material, but it also requires more power to drive.
Dispersion time: Dispersion time refers to the time it takes for a material to disperse in a disperser, usually in minutes. The appropriate dispersion time depends on the nature of the material and the degree of dispersion required, and needs to be adjusted according to the specific situation.
Dispersion medium: Dispersion medium refers to the liquid medium used in the dispersion process, such as water, solvent or other additives. Choosing a suitable dispersion medium can improve the dispersion effect and stability.
这些参数的选择和调整需要According to具体的物料性质、分散要求和工艺条件进行综合考虑,以获得更佳的分散效果。
