Vacuum Emulsifier

Vacuum emulsifier

Vacuum Emulsifier

Vacuum emulsifier is an equipment that is used to make corrective products like healing creams, treatments, moisturizers, and toothpaste. Its vacuum feature helps control the blending environment and avoid aeration that could cause sharp edges in the resulting product.

It is mainly used to produce creams and other fluid items like cough syrups. Its Vacuum emulsifier vacuum feature reduces the rate of wastage that happens during manual blending. It also works consistently and efficiently.


Vacuum homogenization emulsifier is a type of mixer that can be used to produce semi-solid viscous emulsions and dispersions. It is used in the production of medicines, pharmaceuticals, cosmetics, food and chemicals. It is equipped with a water tank, oil tank, vacuum, heating and cooling system. It can also be used to make a wide range of slurry and suspensions. It is easy to clean and can withstand heavy use.

Homogenization can break particles into small, uniform pieces that are easily combined together. It is useful in a variety of fields, including chemistry and biology. For example, scientists use it to disrupt cell walls and membranes in order to study the inside of cells. Homogenization is also useful for mixing immiscible substances. For instance, milk contains many different molecular types. A homogenizer can blast milk through a nozzle at high pressure and temperature, reducing the fat globules in the milk to less than two micrometers in size.

Homogenizers are usually used in combination with high shear mixers and batch mixers. Upstream of the homogenizer, these mixers condition and prepare materials by pre-mixing them. This helps prevent the formation of air bubbles, which can cause instability in the product. Homogenizers can also be used to make finer mixtures, which are necessary for many industrial applications. In addition, homogenization increases the viscosity of the product and reduces its surface tension.


The invention provides a process for recycling polymeric waste material to recover monomers and other useful low molecular weight components in a closed reaction system without stack emissions. The depolymerization is based on the oxidative cleavage of polymeric molecules into monomers. It is particularly suitable for recovering monomers from scrap or waste tires, rubber and plastics. The monomers can be used to prepare a wide range of functional materials including, for example, polyurethane elastomers and fibers.

The method comprises forming a homogeneous or pseudohomogeneous mixture of a polymer including both addition and condensation type polymers, water at supercritical conditions, and an amount of oxidant effective to cause selective oxidation of the polymer. The oxidant is regulated so as to promote or maximize carbon-carbon bond breakage and cleavage and to inhibit or limit other undesirable reactions such as complete oxidation to water.

The resulting amorphous residue is recovered in the form of a precipitated solid and recycled as a raw material for making other polymeric materials, such as elastomers. The residue can also be reacted with aliphatic carboxylic acids to generate polyester polyols, which can be used to make polyurethane foams. This process provides an environmentally acceptable alternative to waste disposal and reduces the demand for petroleum-based chemicals. It is a highly efficient and cost-effective method of converting petroleum polymers to valuable products.


Vacuum emulsifiers have many applications in cosmetics and other fields, including pharmaceuticals, food products, agricultural chemicals, paints, fuel emulsions, soil improvers, and more. They are typically made from 304 stainless steel, but can also be made of carbon or duplex stainless steels. They can be equipped with a heating jacket or a cooling coil for heating/cooling the product. The welded or riveted jacket can be used to heat/cool the product using steam, thermal oil, or water.

A vacuum emulsifier has a dual-matched rotor and stator that generate strong turbulence and high shearing action. The resulting high shearing force helps to disperse and emulsify the ingredients. The high-speed rotor is attached to a stator that moves back and forth over the surface of the tank. This produces an extremely powerful suction that can create thousands of shearing actions per second.

The sucked materials are pushed into the center of the rotor-stator and are sheared against each other Automation equipment supplier in hundreds of cycles. The resulting powder is dissolved and dispersed within the liquid. This allows for a more uniform distribution of the powder in the final product. It is also possible to achieve a higher degree of homogenization and dispersion than traditional systems.

This type of system is designed to be a high-performance, low-cost alternative to conventional systems. It can be used to make a wide variety of cosmetic products, such as ointments, facial creams, and hair conditioners. It can also be used to make chemical compounds, such as methyl sulfate and diethylene glycol.


The vacuum emulsifier has a wide range of uses in the chemical industry, such as separating immiscible oil-water mixtures. Its separation mechanism consists of a buffer slot, a liquid cavitation device, and a gravity separation device. The emulsifying mixture in the buffer slot is pumped into the cavitation device where a jet flow cavitation effect breaks the emulsion. The separated mixture then flows into the gravity separation device to separate the water phase from the oil phase.

Vacuum emulsifiers are also used in the cosmetic industry to mix products like lipstick, facial soap, shampoo, and body cream. They are also used in the pharmaceutical industry to process ointments such as oral syrups and latex, and to make medical emulsions. They are also used in the food industry to make mayonnaise, dressings, jam, spread, and margarine.

The vacuum emulsifier is a versatile and useful piece of equipment that can produce fine, bubble-free products. Its high shear action produces a smooth, even texture. It also reduces the need for excessive mixing, resulting in lower energy consumption and greater product yield. The machine also offers a wide range of controls that allow it to adjust the speed, temperature, and pH values. It is easy to clean and is ideal for high-viscosity materials. The device is also a great choice for making thick emulsions, as it can handle large volumes of liquid.

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