Supercritical Fluid Micronization Equipment

Brief Introduction of Supercritical Fluid Micronization Equipment

BIT supercritical micronization equipment uses supercritical micropowder technology to process and prepare particles, microspheres, microcapsules, porous materials, liposomes and other fine materials.

Supercritical Fluid Micronization Equipment
Supercritical Fluid Micronization Equipment

Supercritical finely controlled particle stream quickly passes through the nozzle hole, and the sudden expansion of CO2 produces a nanoparticle stream.

About Supercritical fluid micronization

Supercritical fluid micronization technology is a new method for preparing ultrafine particles. Supercritical fluid crystallization preparation conditions are mild and do not need to be in contact with the solvent.

Supercritical Antisolvent Method (SAS)

Resulting particles have small particle size and uniform distribution, which is especially suitable for the miniaturization of heat-sensitive and easily oxidized biologically active substances.

Supercritical fluid micronization classification

At present, supercritical fluid micronization/supercritical fluid nanofabrication technology is used to prepare ultrafine particles. According to its principle, it can be divided into supercritical solution rapid expansion method (RESS) , Supercritical Antisolvent Method (SAS) and gas saturated solutionsedimentation method (PGSS).
According to the operation mode, the supercritical fluid solvent method is divided into three different modes: liquid batch operation, gas batch operation, and continuous operation.

Principle of RESS method

A certain degree of solubility of the solute in SCF is a necessary condition for the RESS process to proceed.
First, the solute is dissolved in the SCF, and then the supercritical solution is expanded in a very short time (10-8 ~ 10-5s) through a fine nozzle.

During the expansion process, the sudden change of pressure and temperature causes the solute supersaturation to rise suddenly, and a large number of micronuclei are precipitated, and they grow rapidly in a very short period of time to form uniform micron or nano-sized particles.

Principle of SAS method

The SAS method uses SCF as an anti-solvent, dissolving the material to be prepared into a certain organic solvent to make a solution, and mixing this solution with a supercritical fluid.
Although the supercritical fluid is basically insoluble to the solute in the solution, the solvent in the solution can be miscible with the supercritical fluid.

When the solution and the supercritical fluid dissolve each other, the volume of the solution will expand, which will greatly reduce the dissolving ability of the original solvent and cause the solute to separate out.

Principle of PGSS method

The PGSS method dissolves supercritical CO2 into a liquid solute or a suspension of solute. After reaching saturation, this high-pressure gas-liquid or gas-liquid mixture is rapidly expanded and depressurized through a nozzle to form an aerosol.

The CO2 in the aerosol H2O volatilizes at high temperature in the expansion chamber, solute precipitates, and fine particles are produced.

Difference of supercritical micronization equipment

RESS method has a simple device and can be achieved by using only one nozzle when producing a small amount of material. But the biggest limitation of the RESS method micronization equipment is that the solubility of SCF for most substances is too small.

SAS method micronization equipment is more widely used, especially for the production of high-quality drugs, food additives, cosmetics, etc. The nature and composition of these substances are controlled by controlling the operating conditions, but these methods have disadvantages such as relatively complicated processes and high investment costs.

PGSS method micronization equipment is simple in principle, low in equipment cost, and has a wide range of applications, but the prepared particle size is uncontrollable and the particle size is relatively large.

Supercritical Fluid Micronization Equipment

How to choose supercritical fluid micronization equipment ?

When choosing a method to manufacture fine particles, various factors must be considered comprehensively, such as the solubility of the solute, the size and shape of the particles to be prepared, and the cost of equipment, etc., to choose a suitable method.

Micronization equipment Cost and supercritical fluid micronization equipment price

Our supercritical fluid micronization equipment price is lower than our peers’, and our waterless dyeing machine is high quality, we have our own manufacturing factory, all products are factory price, there is absolutely no middleman markup, we accept both small batch scale customer and large industrial batch scale wholesale micronization machines and supercritical CO2 fluid micronization machine for sale online

Picture shows the Pharmaceutical Micronization Laboratory, Changshu Institute of Technology, China

Supercritical Fluid Systems

What is SCFE

Supercritical fluid extraction (SFE) is the process of separating one component (the extractant) from another (the matrix) using supercritical fluids as the extracting solvent.

What is supercritical extraction used for?

What is supercritical CO2 fluid extraction used for? Can supercritical CO2 extraction help you run for president of the United States? Does CO2 extraction remove pesticides? What is supercritical …

What is the most commonly used supercritical fluid extraction?

Why is carbon dioxide used as a supercritical fluid? Is supercritical CO2 extraction safe? Is supercritical CO2 corrosive? What can supercritical CO2 extract?What are the advantages and disadvantages …

What are the 3 key points of supercritical CO2 extraction?

What is the best raw material processing method? What is the best CO2 extraction pressure? What is the best CO2 extraction temperature? What are the best supercritical CO2 extraction parameters?

What are the 3 types of supercritical fluid extraction processes?

Pressure reduction method, variable temperature method and constant temperature and constant pressure adsorption method. The answer has been provided, I guess you will understand it after reading it.

What is the principle of supercritical fluid extraction?

What are the advantages of supercritical CO2 extraction?What are the featuress of supercritical CO2 extraction?How does supercritical fluid extraction work?

What is the use of the entrainer for supercritical CO2 extraction?

What is the entrainer of supercritical CO2 extraction? What are the the use method and selection criteria of entrainer (cosolvent)? What should be considered when choosing an entrainer?

What is the multi-stage extraction and separation of supercritical CO2 extraction?

What is the effect of multi-stage extraction of supercritical CO2 extraction ? Why does supercritical extraction require multi-stage separation?

What are the extensions of supercritical fluid extraction technology?

7 kinds of fine separation and extraction technologies combined with supercritical extraction technology have expanded the application range of CO2 extraction.


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