01
ER’s technology utilises post- consumer plastic as feedstock to recycle end of life plastics back to their origins chemical structures as well as producing fuel which produces less CO2 emissions than traditional methods of fuel production.
02
The automotive diesel and petrol produced using ER solution reduces the impacts across all relevant impact categories.
03
Specifically, ER believes that independent validation will show that the ER process will produce fuel where the automotive diesel and petrol produced using ER patented technology will demonstrate almost 40% and just over 30% reductions in carbon footprint compared to conventional diesel and petrol, respectively.
01
The ER technology is able to recycle end of life plastic back to a structure from which new plastics can be created. The technology has also been proven to produce road ready fuel that meets international fuel standards (EN 590 and EN 228).
02
‘Our Technology’ is defined to include both the physical components and process elements; all of which is scientifically available to others. The uniqueness to ER is the way this is put together to form an end to end process.
03
ER has selected the best available techniques out of the plastics to recycling processing technologies currently available and adapted known oil refining, fractionation, contaminant removal and emission control technologies into the finished product processing to develop the world’s most advanced plastic to fuel technology.
What Is Unique About The ER Technology
01
ER holds a patent that allow it to recycle plastics by transform end of life non-recyclable plastics destined for landfill or incineration back into plastic and/or to road ready diesel and gasoline. The technology has been independently verified and the fuel tested to meet the highest international fuel standard of EN590 for diesel and Naphtha (EN228 derivative) for petrol.
02
This patented technology is fundamental to our ethos: Creating a cleaner planet using clean energy technology.
Patented Technology
Road Ready Fuel
Unique Design
Massive Energy Savings
Efficiency Guaranteed
Continous 24/7 Process
better...
No Blending
Fill up and drive away
Recycling
Plastics to Plastics
Ease of Use Feedstock
Mixed Plastics
Patented Technology
Road Ready Fuel
Unique Design
Massive Energy Savings
Efficiency Guaranteed
Continous 24/7 Process
C L E A N
E N E R G Y
No Bleeding Required
Fill up - Drive away
Recycling
Plastics to Plastics
Ease of use Feedstock
Mixed Plastics
Patented Technology
Road Ready Fuel
Unique Design
Massive Energy Savings
Efficiency Guaranteed
Continous 24/7 Process
C L E A N
E N E R G Y
No Bleeding Required
Fill up - Drive Away
Recycling
Plastics to Plastics
Ease of Use Feedstock
Mixed Plastics
Patented Technology
Road Ready Fuel
Unique Design
Massive Energy Savings
Efficiency Guaranteed
Continous 24/7 Process
better...
No Blending
Fill up and drive away
Recycling
Plastics to Plastics
Ease of Use Feedstock
Mixed Plastics
We Can Help You Succeed
The Industry Landscape
The industry currently has several organisations using the pyrolysis process, converting plastic to plastic and plastics to a fuel- albeit not road ready fuel.
This adaption of known and proven technologies allows ER to guarantee that the fuels produced from the plant will always meet international fuel standards in Australia, Europe, the Americas, Africa and Asia.
The use of pyrolysis has gained greater interest around the world as a strategy targeted to the avoidance of landfill and removing the end of life plastic menace from the environment.
Many studies have been conducted focusing on the yield and quality of various products formed during the depolymerisation step of the pyrolysis process. The high yield of liquid extracted equates to 923 litres of fuel being produced from 1 metric tonne of plastic.
These independent results show that the pyrolysis process is very efficient in extracting a valuable product (fuel) from a raw material that is considered as waste and as such destined for a landfill. ER takes the fuel and converts it to road ready fuel.
By virtue of these outcomes, the more plastic that can be recycled into the pyrolysis process the smaller the plastic crisis becomes.