The TDF (Tire Derived Fuel) tire shredding system is designed to produce up to the capacity of 1.2 to 20 tons per hour. The size of the output rubber blocks or rubber chips could be tailored as per the customer’s demand. Normally, it ranges from 25mm to 152mm (1”to 6”), which is used as a coal additive for industrial boiler or pyrolysis.
The TDF (Tire Derived Fuel) tire shredding system represents a cutting-edge solution for the efficient recycling of used tires, contributing to environmental sustainability and resource conservation. Designed to handle a capacity ranging from 1.2 to 20 tons per hour, this innovative system offers versatility and scalability to meet diverse industrial requirements.
By utilizing a combination of belt conveyors, dual shaft shredders, and disc classifiers, the TDF tire shredding system efficiently processes used tires, transforming them into valuable TDF rubber chips. These rubber chips serve as a renewable and eco-friendly fuel source, offering higher heat energy output and reduced pollution compared to conventional fuels like coal.
With its customizable output sizes and seamless integration into existing industrial processes, the TDF tire shredding system sets a new standard in waste tire management and recycling. Its ability to produce high-quality TDF rubber chips ensures optimal performance and environmental benefits across various sectors, including industrial boiler heating and pyrolysis applications.
Join us in revolutionizing waste tire recycling with the TDF tire shredding system, driving sustainability and innovation in resource management.
Working Process
Feeding Stage:
This stage involves the initial input of used tires into the recycling system.
Tire Collection:
Used tires are collected from various sources such as tire disposal centers, automotive shops, or recycling facilities.
Belt Conveyor:
The collected tires are fed onto a sturdy belt conveyor for easy transportation into the shredding system.
Shredding Stage
During this stage, the tires undergo shredding to break them down into smaller pieces.
Dual Shaft Shredder:
The tires pass through a robust dual shaft shredder equipped with sharp blades.
Shredded Rubber Blocks:
As a result of shredding, the tires are transformed into smaller rubber blocks suitable for further processing.
Classification Stage
This stage involves the sorting and classification of the shredded rubber blocks.
Belt Conveyors:
Belt conveyors transport the shredded rubber blocks to the next processing unit.
Disc Classifier:
The rubber blocks are fed into a disc classifier, which separates them based on size and other predefined criteria.
Final Output Stage
This stage marks the end of the recycling process, yielding the final product.
Uniform Size Collection:
Rubber blocks of uniform size are collected for packaging and further use, ensuring consistency in the final product.
TDF Rubber Chips:
The ultimate output of the recycling plant is TDF rubber chips, which are ready for use in various applications.
Belt conveyor
Belt conveyors and disc classifier
Belt conveyors and disc classifier
Final Out Put from This Plant (TDF)
Belt conveyor and dual shaft shredder (皮带输送机和撕碎机)
Esta configuração inclui um transportador de correia que alimenta os pneus usados para o sistema e um triturador de dois eixos que os fragmenta em blocos de borracha menores.
Belt conveyors and disc classifier (皮带输送机和分选机)
Esta configuração envolve transportadores de correia que movem os blocos de borracha triturados para um classificador de disco, onde são classificados com base no tamanho e em outros critérios.