Plastic material conveying systems

First, there are two types of pneumatic conveying – pressure (positive) and vacuum (negative) conveying. In the former, compressed air is used at the start of the system to push the material through the piping. In the latter, it is “sucked” toward its destination.

While only one of them is suitable for some materials, plastic can be conveyed using both negative and positve pressure conveying. It depends on the type of plastic that has to be transported as well as the system requirements to pick the ideal solution. 

In addition to determining the type of pneumatic conveying you want to use, you also have to choose or know the proper phase. In this case, it means you’re employing either the dilute and dense phase. 

Once you know in which phase you’re conveying the material, you have to properly size the system, which comes down to finding the ideal flow and pressure in which to convey. Even if you’re looking to replace an existing compressed air system, a sizing check will be useful. A correct sizing will help you reduce your energy bills and ensure a smooth operation. If you have chosen the dilute phase, then a free sizing check will be extremely helpful in finding the right system and preventing you from selecting an incorrectly sized blower or compressor.

Plastic is sensitive to heat. From our everyday experience, we know that it can soften or even deform if exposed to high temperatures. That is why, in addition to a compressor or blower, you will need an aftercooler to ensure that the air temperature is below 70°C to 90°C (depending on the application). 

Some compressors feature an integrated aftercooler while others do not. In that case (and if you are using a blower), the aftercooler will have to be installed separately. It may also be necessary to add a chiller if you choose to install a water-cooled aftercooler. The chiller brings down the water temperature to a manageable and constant level, which ensures that the aftercooler can do its job.

The cooling process with an aftercooler creates moisture. Therefore, in order to protect the plastic, it also needs a water separator or dryer. Generally, integrated aftercoolers come with an integrated water separator. In some specific cases, a dryer instead of a water separator can be used to remove the moisture from the air.

Compressed air can also be used for the so-called “fluidization” process. When conveying plastic material, very low-pressure air is injected into the system to ensure the plastic does not stick to the sides of the container that holds it. In addition, fluidization makes it easier to convey, which reduces energy costs. Although fluidization is a type of pneumatic conveying, it usually does not require extra equipment such as aftercoolers. The air pressure required for fluidization of plastic is very low, so there is less heat created by the blower or compressor during the compression process. This results in a lower air temperature. 

Not sure how to replace your old compressed air system with a new one? Let us help you. The right size of the installation is crucial: not only does it help you save on energy costs, it also shortens unloading times and helps you avoid blockages. Calculating the right size of your installation is difficult and requires specific software and skills. We can help you find the optimal dilute phase pneumatic powder conveying system by offering you a free sizing calculation.