Converting Waste Plastics PP PE into combustible fuel Pellet or Refining oil, a Waste Plastic Pellet Machine is Your Ideal Solution.
The waste plastic RDF pellet machine is primarily used to process soft waste plastics, such as PP and PE etc, into cylindrical pellets measuring 8-10 mm. It is mainly utilized in waste plastic recycling, gasification, or the production of RDF fuel pellets. Pelletizing the waste plastic significantly reduces storage space and allows for automated transportation via belt or screw conveyors, ultimately enhancing operational efficiency and increasing oil yield.
Waste plastic granulators are categorized by die design into small flat die waste plastic granulators and large ring die waste plastics granulators. Small flat die pellet mill are typically used for projects with a production capacity of less than 800 kg/hour, while large ring die pellet mill are suited for operations with outputs exceeding 800 kg/hour. Both types feature heavy-duty reducers, low-speed operation, and big torque, ensuring stable performance and a low failure rate. The primary consideration when selecting a model is matching it to the desired production output.
50-800kg/h Pellet Mill
800-3000kg/h Pellet Mill
MACHINE TYPES | POWER | CAPACITY |
Flat Die Type Pellet Mill | 7.5-75kw | 80-1000kg/h |
Ring Die Type Pellet Mill | 90-250kw | 800-3000kg/h |
Waste plastics typically originate from Municipal domestic waste or industrial waste. While most of these plastics have undergone some processing and are relatively clean, they are often too large or packaged in bales. Therefore, the first step in treatment is to unpack and crush the waste plastics. Traditionally, plastic shredders are used for this purpose, but they often produce long strips of plastic. To address this issue, we have developed a multifunctional soft waste material crusher, capable of being fed with a grabber. It crushes the material to less than 30 mm in a single pass, offering high output and continuous, efficient operation. The crushed plastic can be used directly for pellet production. If storage or bagging is required, a pellet cooler can be used for rapid cooling. The cooled pellets can then be used for oil refining or as fuel.
Plastic pellet machines and production lines typically require customization based on factors such as the size of the raw materials, material composition, and desired output. In some cases, additional processing steps like color sorting or magnetic separation may be necessary. For personalized assistance, please contact us and provide photos of your raw materials. We will have an engineer reach out to discuss your specific requirements.
The waste plastic pellet making machine is equipped with a low-speed, high-torque reducer designed for long-term stable operation and high output. The reducer housing features a cast design that offers excellent heat dissipation, while the gears are constructed from thickened fine steel casting for enhanced durability and wear resistance.
To ensure 24-hour stable operation, the reducer is fitted with a dual oil pump lubrication system. This system is enhanced with a dedicated industrial cooling fan, preventing the machine from overheating and eliminating downtime due to high temperatures.
All components within the granulation chamber that come into contact with the raw material are made of stainless steel, offering excellent wear and corrosion resistance. This ensures reliable performance even in high-temperature, high-humidity environments.
The mold’s double-layer design allows for customized compression ratios based on the characteristics of the raw materials, enabling easy adjustment of particle density for various types of plastics.
Typically, soft plastics like PP and PE can be processed into pellets after being crushed. Hard plastics can also be used for pellet pressing, provided their content is low and they are finely crushed, though the proportion of hard plastics must remain low to avoid poor pellet formation. In general, the plastic size should not exceed 30 mm, and the moisture content should be below 10%. If the proportion of hard plastic is too high, it may absorb the heat generated during the pelletizing process, negatively impacting the density and surface smoothness of the pellets.