The Difference Between Static Mixing And Inline Mixing
When the first chemicals were mixed, the procedure was made manually and the results were usually not too good. There was always some inconsistency in the emulsion resulted from the combination. Now, using inline mixing, the combining of chemical substances offers better results. With the use of computerized machines, a lot of money can be saved in production and transportation. The first machines that were used were static mixers. After some time, combining chemicals became an automated technique and the production time was decreased.
In emulsions, there is always a large amount of water and the amount can reach ninety percent, many times. Obtaining a better blending may not be the only important thing, because storage space must also be seen as an important factor. There can be a lot of problems because of the lack of space, but bad transportation can also create issues, as it can degrade the emulsions.
Because it may be too expensive to transport chemical substances, many companies that have high amounts of liquids to manage, may choose to store them for long periods of time. If the liquids stay for too much time in the same place, the environment created can be a good one for bacteria growth. In order to avoid the development of microorganisms, the scientists have decided to implement technologies that are used in the textile industry, such as static mixing or inline mixing.
Static mixers are not having moving parts, and this may be a great advantage. In 1960, the first static mixer was created. The device decreases the particle size to a point in which the particles create a strong connection together, that usually resists in time. In order to reach a certain particle dimension, the parts can be divided many times. The baffles are the tools that help in the division of streams. When the parts are small enough, they can connect, forming a consistent mix.
Continuous blend or inline mixing was first used around 1990. Being made from a static mixer that is implemented into an automated machine, it also has an automated pump and one or more flowmeters.
The components required for making the system function can be selected according to the number of chemicals that are used and the required volume. The parts that are used in the textile industry and in other industries are: inline heaters, static mixers, mass flowmeters, programmable logic controllers and progressive cavity pumps.
Mass flowmeters manage the quantity of each substance that is pumped for mixing and they can also offer valuable information like temperature or density. Progressive cavity pumps can help in the movement of the mixed chemicals. The products that can be handled by a progressive cavity pump are numerous, as they can be from abrasive materials to different liquids.
Due to the latest technologies, the old static mixers have been converted to automated systems, like inline mixer mixers. The automated equipment can be the best option for making complex chemical substances, as they can create better emulsions.
In emulsions, there is always a large amount of water and the amount can reach ninety percent, many times. Obtaining a better blending may not be the only important thing, because storage space must also be seen as an important factor. There can be a lot of problems because of the lack of space, but bad transportation can also create issues, as it can degrade the emulsions.
Because it may be too expensive to transport chemical substances, many companies that have high amounts of liquids to manage, may choose to store them for long periods of time. If the liquids stay for too much time in the same place, the environment created can be a good one for bacteria growth. In order to avoid the development of microorganisms, the scientists have decided to implement technologies that are used in the textile industry, such as static mixing or inline mixing.
Static mixers are not having moving parts, and this may be a great advantage. In 1960, the first static mixer was created. The device decreases the particle size to a point in which the particles create a strong connection together, that usually resists in time. In order to reach a certain particle dimension, the parts can be divided many times. The baffles are the tools that help in the division of streams. When the parts are small enough, they can connect, forming a consistent mix.
Continuous blend or inline mixing was first used around 1990. Being made from a static mixer that is implemented into an automated machine, it also has an automated pump and one or more flowmeters.
The components required for making the system function can be selected according to the number of chemicals that are used and the required volume. The parts that are used in the textile industry and in other industries are: inline heaters, static mixers, mass flowmeters, programmable logic controllers and progressive cavity pumps.
Mass flowmeters manage the quantity of each substance that is pumped for mixing and they can also offer valuable information like temperature or density. Progressive cavity pumps can help in the movement of the mixed chemicals. The products that can be handled by a progressive cavity pump are numerous, as they can be from abrasive materials to different liquids.
Due to the latest technologies, the old static mixers have been converted to automated systems, like inline mixer mixers. The automated equipment can be the best option for making complex chemical substances, as they can create better emulsions.
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Quadro Ytron technology provides processing solutions including the most innovative mixing equipment and high speed disperser equipment for all industries. Whether you company is in the pharmaceutical, chemical, cosmetic or food industries we have a solution for you.