It all ends here.
At Endpoint Recovery, we utilize a thermal cracking process to recover resources from plastics, tires, medical and municipal waste, solar panels and wind turbines.
"More plastic is being produced, and an even smaller percentage of it is being recycled," says Lisa Ramsden, senior plastic campaigner for Greenpeace USA. "The crisis just gets worse and worse, and without drastic change will continue to worsen as the industry plans to triple plastic production by 2050."
The CODE System
The Catalytic Oxygen-Free Waste Decomposition (CODE) system is an advancement in sustainable waste management.
This system reclaims valuable resources from a wide range of waste materials, including municipal solid waste, plastics, tires and medical waste.
It converts these substances into commercially viable products like liquid fuels and synthetic graphite, providing a sustainable answer to the worldwide waste dilemma.
By diverting waste from landfills and incinerators, the CODE system minimizes environmental impact and supports the circular economy.
Its modular, scalable design makes it adaptable to a wide range of waste types, community needs and disaster relief.
Benefits of A.I. in Waste Management
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Fact #4
Less than 7% of plastic is recycled. The rest ends up in landfills or littered on our lands and waters.
Fact #5
The US alone sends between 246 million and 300 million end-of-life tires to waste annually.
Fact #6
The world generates 2.01 billion Tonnes of municipal solid waste annually.
Rapid return on investment, by generating revenue from liquid fuels, graphite, and carbon credits.
Profitable and Sustainable
No Sorting
Mixed or Segregated waste.
Efficient Design
Compact systems that fits into standard shipping container to 1000 MT per day.
Versatile
Waste Processing
MSW, plastics, tires and medical waste.
Certified Components
Certified, high-quality instrumentation ensures accurate monitoring and control.
The Solution
The waste management process described is a sophisticated system designed to handle and process waste efficiently. Initially, waste is collected and placed into a hopper that feeds a shredder, which is robust enough to deal with various contaminants, including glass and metal.
The shredder's output then goes to a dryer, a rotating vessel that operates under vacuum pressure to lower the evaporation temperature, thus saving energy. The system's efficiency is further enhanced by double gates that regulate the waste flow into the dryer, ensuring a steady supply. The reactor, another rotating vessel, is equipped with internal flights that lift and drop the waste, facilitating optimal drying by adjusting the temperature and flow.
This entire process is overseen by an automation system, which ensures precise control over temperature and pressure, crucial for maintaining the system's integrity and performance. The integration of mechanical and automated components exemplifies modern waste management technology's capability to optimize energy use and process waste in an environmentally conscious manner.
Valuable By-Products
Fact #1
Estimates suggesting that the global economy loses up to $120 billion annually due to plastic waste that is not recycled.
Fact #2
Landfills produce harmful greenhouse gases like methane, which is 25 times more potent than carbon dioxide.
Fact #3
Plastics release 213 million metric tons of carbon dioxide, which is roughly equivalent to what 45 million passenger vehicles emit each year.
What problem are we solving?
The most pressing environmental concern regarding landfills is their release of methane gas.
As the organic mass in landfills decompose methane gas is released. Methane is 84 times more effective at absorbing the sun’s heat than carbon dioxide, making it one of the most potent greenhouse gases and a huge contributor to climate change.
Along with methane, landfills also produce carbon dioxide and water vapor, and trace amounts of oxygen, nitrogen, hydrogen, and non-methane organic compounds. These gases can also contribute to climate change and create smog if left uncontrolled.
Carbon Credits
250 Billion by 2050!
Global market for voluntary carbon offsets expected to hit $250B by 2050, Morgan Stanley predicts