About
Headquartered in
England

ELTR is developing a state-of-the-art, commercial-scale tyre recovery facility that combines advanced mechanical and chemical processes to transform End-of-Life Tyres (ELTs) into valuable raw materials. Central to this operation is the production of high-grade Recovered Carbon Black (rCB), a sustainable and circular alternative to virgin carbon black. Designed for maximum efficiency and environmental benefit, ELTR’s facility is capable of recovering up to 99.5% of the material content from each tyre processed. By integrating precision-engineered pyrolysis and material refining systems, ELTR ensures the highest quality outputs while minimising environmental impact and operational waste. A standout feature of the project is its significant contribution to reducing greenhouse gas (GHG) emissions. The facility is expected to achieve annual savings of approximately 57,000 tonnes of CO₂ equivalent, playing a vital role in decarbonising the tyre and materials value chain. ELTR is committed to driving the circular economy forward by turning a global waste challenge into a clean, scalable, and economically valuable solution. Through technological innovation and sustainable design, ELTR is setting a new standard for tyre recovery and material reuse at scale.

About
Headquartered in
England

ELTR is developing a state-of-the-art, commercial-scale tyre recovery facility that combines advanced mechanical and chemical processes to transform End-of-Life Tyres (ELTs) into valuable raw materials. Central to this operation is the production of high-grade Recovered Carbon Black (rCB), a sustainable and circular alternative to virgin carbon black. Designed for maximum efficiency and environmental benefit, ELTR’s facility is capable of recovering up to 99.5% of the material content from each tyre processed. By integrating precision-engineered pyrolysis and material refining systems, ELTR ensures the highest quality outputs while minimising environmental impact and operational waste. A standout feature of the project is its significant contribution to reducing greenhouse gas (GHG) emissions. The facility is expected to achieve annual savings of approximately 57,000 tonnes of CO₂ equivalent, playing a vital role in decarbonising the tyre and materials value chain. ELTR is committed to driving the circular economy forward by turning a global waste challenge into a clean, scalable, and economically valuable solution. Through technological innovation and sustainable design, ELTR is setting a new standard for tyre recovery and material reuse at scale.

About
Headquartered in
England

ELTR is developing a state-of-the-art, commercial-scale tyre recovery facility that combines advanced mechanical and chemical processes to transform End-of-Life Tyres (ELTs) into valuable raw materials. Central to this operation is the production of high-grade Recovered Carbon Black (rCB), a sustainable and circular alternative to virgin carbon black. Designed for maximum efficiency and environmental benefit, ELTR’s facility is capable of recovering up to 99.5% of the material content from each tyre processed. By integrating precision-engineered pyrolysis and material refining systems, ELTR ensures the highest quality outputs while minimising environmental impact and operational waste. A standout feature of the project is its significant contribution to reducing greenhouse gas (GHG) emissions. The facility is expected to achieve annual savings of approximately 57,000 tonnes of CO₂ equivalent, playing a vital role in decarbonising the tyre and materials value chain. ELTR is committed to driving the circular economy forward by turning a global waste challenge into a clean, scalable, and economically valuable solution. Through technological innovation and sustainable design, ELTR is setting a new standard for tyre recovery and material reuse at scale.

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Let's make the use of biobased and recovered raw materials the new standard.

Let's make the use of biobased and recovered raw materials the new standard.

Let's make the use of biobased and recovered raw materials the new standard.