Engineering the Future of Energy Recovery
Converting residual waste into usable energy, advanced materials, and circular carbon sources for industry.
Converting residual waste into usable energy, advanced materials, and circular carbon sources for industry.
Converting residual waste into usable energy, advanced materials, and circular carbon sources for industry.
Capturing Energy from What’s Left Behind
Even in a circular system, some waste can’t be reclaimed chemically or biologically. Arc exists to recover value from that final fraction — transforming residual solids, plastics, and organics into usable energy and carbon-based materials through high-efficiency pyrolysis and gasification systems.
By integrating directly with Graymark’s recovery network, Arc ensures every process ends in energy, not landfill.
Even in a circular system, some waste can’t be reclaimed chemically or biologically. Arc exists to recover value from that final fraction — transforming residual solids, plastics, and organics into usable energy and carbon-based materials through high-efficiency pyrolysis and gasification systems.
By integrating directly with Graymark’s recovery network, Arc ensures every process ends in energy, not landfill.
From Waste Heat to Circular Power
Arc’s modular pyrolysis reactors convert non-recoverable waste into synthetic gas, biochar, and refined heat — all of which can be reused across industrial operations.
The process delivers dual benefits: reducing disposal volumes while generating renewable energy and carbon-rich by-products that can be reinvested into agriculture and manufacturing.
Arc’s modular pyrolysis reactors convert non-recoverable waste into synthetic gas, biochar, and refined heat — all of which can be reused across industrial operations.
The process delivers dual benefits: reducing disposal volumes while generating renewable energy and carbon-rich by-products that can be reinvested into agriculture and manufacturing.
Designing Next-Generation Recovery Systems
Arc is currently in the research and design phase, focused on scaling compact, high-throughput pyrolysis systems that integrate with regional Graymark facilities.
By developing energy recovery as part of our core infrastructure, Arc moves Graymark closer to a fully closed-loop industrial ecosystem — where every output becomes input once again.
Arc is currently in the research and design phase, focused on scaling compact, high-throughput pyrolysis systems that integrate with regional Graymark facilities.
By developing energy recovery as part of our core infrastructure, Arc moves Graymark closer to a fully closed-loop industrial ecosystem — where every output becomes input once again.
FAQ
What is Project Arc?
What is Project Arc?
What is Project Arc?
How does Arc complement other projects?
How does Arc complement other projects?
How does Arc complement other projects?
What technologies power Arc?
What technologies power Arc?
What technologies power Arc?
How can I get involved?
How can I get involved?
How can I get involved?
Join us in turning end-of-life materials into the next generation of energy.
Engineering the Future of Energy Recovery
Converting residual waste into usable energy, advanced materials, and circular carbon sources for industry.
Converting residual waste into usable energy, advanced materials, and circular carbon sources for industry.
Converting residual waste into usable energy, advanced materials, and circular carbon sources for industry.
Capturing Energy from What’s Left Behind
Even in a circular system, some waste can’t be reclaimed chemically or biologically. Arc exists to recover value from that final fraction — transforming residual solids, plastics, and organics into usable energy and carbon-based materials through high-efficiency pyrolysis and gasification systems.
By integrating directly with Graymark’s recovery network, Arc ensures every process ends in energy, not landfill.
Even in a circular system, some waste can’t be reclaimed chemically or biologically. Arc exists to recover value from that final fraction — transforming residual solids, plastics, and organics into usable energy and carbon-based materials through high-efficiency pyrolysis and gasification systems.
By integrating directly with Graymark’s recovery network, Arc ensures every process ends in energy, not landfill.
From Waste Heat to Circular Power
Arc’s modular pyrolysis reactors convert non-recoverable waste into synthetic gas, biochar, and refined heat — all of which can be reused across industrial operations.
The process delivers dual benefits: reducing disposal volumes while generating renewable energy and carbon-rich by-products that can be reinvested into agriculture and manufacturing.
Arc’s modular pyrolysis reactors convert non-recoverable waste into synthetic gas, biochar, and refined heat — all of which can be reused across industrial operations.
The process delivers dual benefits: reducing disposal volumes while generating renewable energy and carbon-rich by-products that can be reinvested into agriculture and manufacturing.
Designing Next-Generation Recovery Systems
Arc is currently in the research and design phase, focused on scaling compact, high-throughput pyrolysis systems that integrate with regional Graymark facilities.
By developing energy recovery as part of our core infrastructure, Arc moves Graymark closer to a fully closed-loop industrial ecosystem — where every output becomes input once again.
Arc is currently in the research and design phase, focused on scaling compact, high-throughput pyrolysis systems that integrate with regional Graymark facilities.
By developing energy recovery as part of our core infrastructure, Arc moves Graymark closer to a fully closed-loop industrial ecosystem — where every output becomes input once again.
FAQ
What is Project Arc?
What is Project Arc?
What is Project Arc?
How does Arc complement other projects?
How does Arc complement other projects?
How does Arc complement other projects?
What technologies power Arc?
What technologies power Arc?
What technologies power Arc?
How can I get involved?
How can I get involved?
How can I get involved?
Join us in turning end-of-life materials into the next generation of energy.