Doing fully continuous plastic pyrolysis plant is more popular in the market than batch pyrolysis plant and semi-continuous pyrolysis plant because of the high degree of automation and larger capacity. For the large capacity, the daily capacity can be 30 T. Speaking of the high degree of automation, continuous plastic pyrolysis plant is equipped with automatic feeding and discharging system, which can realize feeding materials on one side and discharging slag from the other side continuously. Workflow of fully continuous plastic pyrolysis plant: 1. The processed raw material is put into the pyrolysis reactor automatically. When the inner temperature of the pyrolysis reactor reaches related degree, the oil gas will be generated. 2. Then the oil gas goes into the catalyst chamber firstly. In the catalyst chamber, the heavy oil gas will be liquefied into heavy oil and drop in the heavy oil tank. The light oil gas rise up to the condenser, and then be liquefied into oil. In the hydroseal, the combustible gas will be desulfurated and cleaned then recycled to heat the pyrolysis reactor. 3. The smoke produced when heat the reactor will be cooled down, then enters the de-dusting system. In the spraying tower, the smoke will go through the water washing, water spray, and ceramic ring adsorption, so the smoke can meet the EU environmental protection and emission standards. 4. As for the carbon black, it will be discharged by the auto screw discharger. Final products of fully continuous plastic pyrolysis plant: Both the fuel oil and the carbon black produced by the cracking process can be directly marketed. If you want to get higher market value, you can further process them ,and we have specialized equipment for this,waste oil distillation machine ,carbon briquetting machine and grinding machine. Fuel oil can be refined to light diesel oil, carbon black can be made into carbon black pellets for combustion, or milling to carbon black fine powder, used in the production of plastics, rubber soles, paints and so on. Non-condensable gases can be recovered as fuel heating the reactor, which saves fuel costs.
