Welcome to LogosLTD
We convert plastics that cannot be mechanically recycled into a mixture of hydrocarbons that serves as a chemical feedstock intermediate for producing new polymers used in petrochemical products. Our advantages are modern equipment, low emissions, no toxic residues, and reliable business partnerships.
LOGOS LTD s.r.o. operates at the intersection of ecology and industrial technologies. We use advanced chemical recycling to return hard-to-recycle plastics to the economy in the form of hydrocarbon blends, which are core intermediates for the petrochemical industry.
Our process is designed with an emphasis on low emissions and the absence of toxic residues, ensuring environmental safety at every stage. We build long-term partnerships with industrial clients seeking a reliable source of alternative chemical feedstocks and with organizations committed to responsible handling of polymer waste.
What Drives Us Every Day
Partnership
Long-term relationships, mutual benefit, and service from intake to product dispatch.
Efficiency
Prudent use of resources, stable quality, control of impurities and the composition of chemical intermediates.
Innovation
Modern equipment and continuous optimization of pyrolysis processes.
Environmental Safety
We minimize environmental impact and comply with EHS standards.
Principled Approach
We do not extract fossil resources, we focus on recycling and recovery.
Transparency & Reliability
Fair terms, predictable deliveries, open documentation.
Innovating a Cleaner Future
from Plastic Waste
To convert plastic waste into valuable hydrocarbon blends through innovative chemical recycling with low emissions and no toxic residues, while providing consistent quality, transparent collaboration, and environmental safety for our clients.
We also strive to:
- Drive the development of sustainable technologies that minimize environmental impact.
- Support industries in transitioning to cleaner, circular production models.
- Promote long-term ecological balance through responsible innovation and resource recovery.
