Enzyme hydrolysis tank mixer- Overview
Enzymes are a special type of biocatalyst produced by living cells of organisms in the form of proteins, which can participate in and promote various chemical and biochemical reactions within living cells. Enzymes have extremely high activity and specificity, and can efficiently catalyze reactions under normal temperature, pressure, and mild acid-base conditions, thus receiving attention and being widely used. Today, industrial enzymes have been involved in many fields such as medicine, food, beverages, brewing, feed, textiles, washing, papermaking, leather, and wastewater treatment.

In addition to the above characteristics, the amplification of microbial fermentation tanks also has some unique features of microorganisms, such as the composition, concentration, viscosity of the culture medium, as well as the growth and metabolism of microorganisms. The reproductive generations of microorganisms in large and small tanks may be different. All these factors make the scaling up of microbial fermentation tanks more complex than ordinary stirred tanks. In the amplification of microbial fermentation tanks, in the early stages, most products were fermented using geometrically similar fermentation tanks with equal input power per unit volume to obtain the speed and diameter of the agitator. Experiments have shown that it is reasonable to maintain a constant power per unit volume during amplification, and in many cases, especially for well functioning fermentation tanks, amplification seems to have achieved considerable success. This method, according to the previous formula, is actually based on the equal gas-liquid contact area per unit volume of liquid. But this method is too conservative and not applicable to all fermentation tanks. The current trend is towards using methods with an equal dissolved oxygen coefficient.

Enzyme hydrolysis tank mixer- Blender design
model
impeller diameter
Shaft length
Shaft Diameter
Discharge volume
stay time
agitation intensity
Mixing time and uniformity
rotational speed
mixing efficiency
Discharge direction
Motor Power
motor speed
Motor Efficiency
Motor installation bending moment
Motor torque
The distance from the dosing tube to the center of the impeller
Gearbox gear oil grade
CFD model diagram