Pharmaceutical mixer- Overview
According to the requirements of GMP in the pharmaceutical industry, sanitary grade mixing equipment must meet the following requirements:
(1) The surface of stirring components such as the internal shaft coupling, shaft and blade, baffle, etc. of the kettle should be smooth, easy to clean and sterilize. When designing the structure, consideration must be given to hygiene grade design;
(2) Any equipment that comes into direct contact with materials should use materials that do not react with them, do not release particles, and do not adsorb materials. Generally, austenitic stainless steel is used. For mixing equipment used for injection and drug preparation, ultra-low carbon stainless steel, such as 304SS or 316LSS, should be selected as much as possible.

Application industry
Biological reagent
pharmaceutical production
food and beverage
chemicals for daily use

main features
1. Aseptic seal: FDA compliant double end seal, using food grade lubricating oil
2. Seamless design: shaft and blade welded or using cap nuts
3. The surface treatment adopts processes such as acid washing or machine polishing, which can range from different required levels such as 0.2-0.8 microns
4. There are multiple material options for shafts and blades
5. Special tapered roller bearing design ensures a fault free service life of 80000 hours for the bearing, with ball radial shaft support bearing
6. Dozens of different blade forms can be matched for different materials
7. There is a single steam port in the sealed shell
8. Standard debris is well fixed on the flange during installation
9. Featuring a proprietary single mechanical seal sound-absorbing ring
10. Provide solid stainless steel installation flanges
11. Adopting ANSI or Tri Clamp design
12. Standard NEMA C-face motor
13. Closed cast iron base, sturdy and durable

Pharmaceutical mixer- Design
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

Design required parameters
Mixed purpose
Geometric dimensions and structural drawings of the tank body
The solid content, viscosity, specific gravity, particle size, and particle degree of the material
Requirements for mixing time and number of cycles
Hourly processing capacity of a single pool