FREE FUEL for CHP

Simply The Only solution for Plastics On Land Or SEA

Converting end-of-life (EOL) plastics into fuel can be done through a process called pyrolysis. Pyrolysis involves heating the plastics in the absence of oxygen to break them down into gases, liquids, and solid residues. The resulting products can include synthetic fuels, such as diesel or gasoline-like hydrocarbons.

Here are the basic steps involved in using EOL plastics as fuel through pyrolysis:

  1. Collection and Sorting:

    • Gather and sort EOL plastics. It’s essential to ensure that the plastics collected are suitable for the pyrolysis process. Contaminants or materials that cannot be pyrolyzed may need to be removed.

  2. Shredding:

    • Shred the collected plastics into small pieces to increase the surface area exposed to the pyrolysis process.

  3. Pyrolysis:

    • Subject the shredded plastics to high temperatures in the absence of oxygen. This process typically occurs in a reactor or pyrolysis chamber. The heat causes the plastics to break down into gases, liquids, and char.

  4. Gas and Liquid Collection:

    • Collect the gases and liquids produced during pyrolysis. These can be further processed to obtain various types of synthetic fuels.

  5. Condensation:

    • Cool the gases produced during pyrolysis to condense them into liquid fuel products.

  6. Separation and Refinement:

    • Separate and refine the liquid products to obtain the desired fuel. This may involve additional processes such as distillation or upgrading to improve the quality of the fuel.

  7. Solid Residue Handling:

    • The char or solid residue left after pyrolysis can be used for various purposes, such as as a solid fuel, as a feedstock for other processes, or for disposal in an environmentally responsible manner.

It’s important to note that using EOL plastics as fuel through pyrolysis raises environmental and economic considerations:

  • Environmental Impact: While pyrolysis can convert plastics into fuel, the process may produce emissions, and the overall environmental impact depends on factors such as the energy used for heating and the treatment of by-products.

  • Economic Viability: The economic feasibility of using EOL plastics as fuel depends on the cost of the pyrolysis process, the value of the resulting fuel, and potential revenue streams from by-products.

  • Regulatory Compliance: Ensure compliance with local regulations regarding waste management, air quality, and other environmental standards.

Power in Numbers

1

Projects

59

Queries

19

Years Experience

Gallery