Everything You Need to Know About Homogenizer

Homogenization is the process of separating one substance (a gas, liquid or solid) and mixing it into another (usually liquid) with which it would not normally combine. This is not a particularly complex concept, when you consider the fact that it relies on one or more external sources of energy that isolate the force required to break the substance, often in nano particles. Many industries use homogenization to facilitate more stable mixing with improved bio-availability, controlled consistency, and longer shelf life. The type of equipment they use is used to supply the force - called a homogenizer - directly depends on the type of material being mixed, as well as the intended use of the finished product  does. To know about homogenizers on the market today, you have to take a quick overview of all those things:

Types of Homogenizers

There are many types of homogenizers available at Homogenizer Manufacturer, ranging from common kitchen appliances such as mortar and pestle and mixers to sophisticated equipment such as bead mills and cell lice. They are classified according to the type of force they supply, the most basic of which are:

Mechanical Homogenizers - Those used to effect turbulent movement, stirring, shearing and / or breakdown and mixing of substances. Typical examples of mechanical homogenizers include bead mills, rotor-stator homogenizers and blade homogenizers.

 High-pressure homogenizers (HPHs) - Which force cell pressures through small tunnels or pores to disrupt their bonds. Many homogenizers of this type also incorporate high velocity effects (other than pressure) of the product to better ensure cell divergence.

 Ultrasonic Homogenizers - which combine extreme sound pressure waves in different types of vessels to form microscopic bubbles that eventually explode (also called cavities), breaking covalent bonds and stopping the blending process.

How Homogenizers are Used

As discussed, homogenizers are used in various industries for various purposes. Some of the most common are:

Food and Beverage - Food and beverage manufacturers rely on homogenizers to improve the stability and appearance of their products. The homogenization process separates milk from creams and other liquid and viscous substances (such as orange juice, milk, mayonnaise, salad dressings, and yogurt) and returns them to separate parts.

Biotech Industry - The biotech industry consists of companies that exclude products from living organisms. These types of businesses, mostly concentrated in the medical and agricultural sectors, work with microorganisms (such as bacteria, fungi and viruses) as well as plants and animal tissues, modify crops and livestock, medicines and engineer bio To make and test fuel. They use homogenizers to lyses cells, reduce particle size and make micro and nano particles for both research and production purposes. In particular, homogenizers help to ensure that biotech processes maintain consistently measurable results while preserving the integrity of cell contents.

Pharmaceutical and Chemical Industries - Whether they use chemicals to manufacture drugs, plastics, or other products, both pharmaceutical and industrial chemical companies need homogenizers to help differentiate a substance so that it can be uniformly To be spread across each other. Not only does it facilitate easier and more uniform mixing, it creates a final product with "a tight distribution of small particles". This increases bio availability and prolongs the shelf life of pharmaceutical products, and increases conductivity and improves the surface cohesion of products for industrial chemical applications. In fact, all types of chemical products, from life-saving drugs to paints, require homogenizers to effectively mix product particles, maintain uniformity, and cut costs.