1. Mixing effect: Fluid mixer transfers mechanical energy to the fluid through the rotation of the agitator, forming a highly turbulent mixing zone and generating high-speed jets to promote the circulation of liquid. This mixing effect is particularly important for gas-liquid mixed reactions, and the quality of the mixing effect directly determines the reaction rate and conversion rate.
2. Mass transfer and heat transfer: Stirring operations can enhance mass transfer and heat transfer processes, which are essential for chemical reactions. For example, fully disperse the gas in the liquid to enhance mass transfer or chemical reactions; prepare a uniform suspension to accelerate the dissolution, leaching or liquid-liquid chemical reactions of solids.
3. Increase the reaction rate: By improving the distribution of the reaction gas and circulating liquid, the reaction gas and liquid phases are fully mixed, thereby increasing the reaction rate. Fluid stirring technology uses the liquid's own circulation to achieve full mixing of the gas and liquid phases in the equipment by improving the distribution of the reaction gas and circulating liquid, greatly increasing the gas-liquid reaction rate.
4. Prevent local overheating or overcooling: One of the purposes of the stirring equipment operation is to enhance heat transfer and prevent local overheating or overcooling, which is very important for controlling reaction conditions and improving product quality.
5. Eliminate mechanical stirring seal leakage and mechanical failure: The new fluid stirring technology eliminates the potential parking hazards caused by mechanical stirring, and achieves continuous, stable and safe operation.
6. The influence of structural parameters on stirring characteristics: The structural parameters of the agitator, such as the number of paddle blades, height from the bottom, blade inclination angle, etc., have a significant impact on the stirring power per unit volume, mixing time, and effective stirring volume fraction during the stirring process. The optimization of these parameters can further improve the stirring efficiency and reaction rate.
7. The influence of stirring on the kinetic behavior of chemical reactions: Studies have shown that stirring can affect the kinetic behavior of chemical reaction systems. Inhomogeneity can not only change the range of the bistable zone, but also induce non-equilibrium phase transitions under certain conditions.
How does a fluid mixer affect chemical reactions?
- Jan 06, 2025-

