Since the vehicle industry expands in dimensions, the number of trash tires produced climbs in proportion. For that reason, it can be reasonable to assume that waste tire pollution is to get worse by the day. In return, people all over the world have developed various methods for dumping discarded tires as a way to limit and stop pollution.

Do you know the Various Techniques for Disposing of Used Tires?

Currently, one of the most frequent techniques for disposing of waste tires are waste tire recycling to recovered rubber, retreading, and pyrolysis technology. Of these, Pyrolysis technology is likely the most promising of them all. This is due to the big volume of waste tires that pollute the environment.

What exactly is a Tire Pyrolysis Plant?

An oil pyrolysis plant (¿Cómo inicio el reciclaje en México?) is equipment that turns discarded tires, and plastics among other solid waste into oil, carbon black, and uncondensed gas. Using discarded tires as being a raw material in an oil pyrolysis plant helps recycle waste, which actually helps humanity safeguard environmental surroundings by reducing waste accumulation. Running a business, by selling the by-products of your process, investors will make a lot of money.

The Workflow Steps of any Tire Pyrolysis Plant

Step 1: Feeding the raw materials

Automatic feeding equipment feeds waste tires or plastic in to a pyrolysis reactor. The reactor ought to be given one third of its volume to give it time to rotate more smoothly. After that, ensure sure the feeding machine's inlet is securely shut.

Step 2: Heating

The fuel material (LPG, tire oil, wood, natural gas, or coal, created from waste tire/plastic to fuel oil pyrolysis plant (https://www.bestoneco.com/planta-de-pirolisis-de-lodo-aceitoso/)) will be gently heated inside the pyrolysis reactor.

Step Three: Separation in the By-Products

When the temperature reaches 100°C (the most notable output rate interval is 250-280°C), the oil gas will probably be emitted. The heavy oil gas separated with the manifold should really liquefy and fall straight into the heavy oil tank. The lighter gas will likely rise to the oil condensers, where it will be liquefied and stored as oil. Lastly, the non-condensable gas will be desulfurized and dedusted prior to being fed in to the furnace, which will heat the pyrolysis reactor for recycling.

Step 4: Cooling

The reactor must be cooled after all of the fuel oil has been produced. As soon as the temperature drops below 40 degrees, carbon black is going to be expelled automatically.

Step 5: Steel Wool Removal

When the source materials are discarded tires, remove steel wires through the reactor using hooks after the temperature has dropped below 50 degrees Celsius.

Step 6: Purification of Exhaust Gas

If you find any remaining exhaust gas, you are able to purify it utilizing the smoke cleaning system to take it up to emission standards.

In general

It is possible to recycle scrap tires into renewable power, making use of the tire pyrolysis technique (Beston Group). The great thing is you can do this all without polluting the surroundings along the way. To prevent air and water pollution, be sure your waste tire pyrolysis facility has a smoke cleaning system, tail gas cleaning system, bad odor elimination system, and water circulation system.