Technology

 

A.Eon Holdings’s business model is to provide our technology and engineering capability to processing plants that convert & end-of-life tyres & waste plastic into saleable products.

The main outputs from the conversion of end-of-life tyres & waste plastic is a High-Grade Oil, Carbon Black (Char) and Gas.

Potential customers of our High-Grade Oil, Carbon Black (High-Grade Char) and Gas are as follows;

  • Oil Companies and/or Processing Companies that Manufacture Fuels | Sustainable Aviation Fuel | Renewable Diesel Fuel
  • Sold as a bunker fuel oil to On-site and Off-grid Industrial Power Generator owners/operators and Cargo Ship operators.
  • Steel Refineries for Carbon Black (Char) and Recycled Steel.
  • Tyre manufacturers requiring high quality Carbon Black (Char)

The company is in the process of developing its first pilot plant to run performance tests, endurance tests and emissions tests of the new technology at scale.

The new technology will place A.Eon as a world-leading circular economy technology company, the oils will be able to be used in high-quality lubricants, and to enable zero sulphur emission shipping, they can be mixed with ammonia and used in Cosco-Weichai and Man duel fuel ammonia-bunker fuel ship engines. The oil will also be able to be used to produce petrochemicals. The ultra clean high quality carbon will be able to be used in the wider carbon industry, including in green steelmaking  and green tyre making.

Products like tallow to biodiesel will be able to be diverted back into the food chain to improve declining global food security, and direct palm oil to biodiesel is now able to be replaced by a higher level circular economy response of natural rubber which produces cleaner “soup” in our waterways and provides additional circular economic function as the car tyres are used, then the carbon recovered and the oil used for other purposes in the economy.

A.Eon is shaping up to be one of the worlds leading green circular economy technology contributing companies.

A comprehensive financial model has been developed.

The model assumes a 100tpd capacity continuous plastic reclamation unit operating for 330 days per year with two planned maintenance intervals.

Available synergies will increase with expansion to multiple sites, with High Project gross margin is achieved through the below primary factors:

1.Low feedstock cost

2.Zero sorting and pre-processing cost

3.Energy self-sufficiency

A.Eon, recycling waste plastic 

  • Use of municipal waste plastic “Creating a Circular Economy for Waste Plastic” 
  • Municipal recycling facilities (MRFs) undertake collection and secondary sorting of plastic waste for recycling and reuse.
  • Limited alternate recycling options for end-of-life plastics existed in Australia and consequently landfill diversion options were limited.
  • A.Eon Holdings provides a financially viable reuse option through clean efficient conversion of waste plastic to synthetic oil and hydrogen .
  • A.Eon Holdings is based on a core Pyrolysis process.
  • Pyrolysis is a thermal decomposition process that occurs in the absence of oxygen.
  • There are 3 process outputs; gas, oil and solids.
  • The plant operates continuously to produce ~20% gas, ~70% oil and ~10% carbon (char).

First Mover Advantage

  • A.Eon Holdings Projects, for the first time, create a financially viable reuse option for waste plastic through its clean efficient conversion to oil and gas, hence, A.Eon has a strong business model where it is paid a gate fee for taking waste plastic feedstock from municipal waste companies and converts into their original building blocks for reuse.  “Creating a Circular Economy for Waste Plastic”
  • Converting waste polymer to purified styrene monomer
  • Chemical recycling can play a key role in the transition to a low-carbon economy by providing low-carbon fuels, making more plastics circular, and producing high quality plastics with a lower greenhouse gas footprint.