Waste Plastic refinery
Who are Remarkable Energy?
Remarkable Energy is a polymer recycling business with technology to turn waste plastics into a range of recovered value-added products. The process converts waste plastic into a liquid fuel and gas fuels, circular materials for re-manufacturing plastics, waxes and additives for industry.
We have unlocked the commercial value of plastic waste, a cost-effective micro plastic-refinery. We are committed to solving the plastic pollution crisis and meeting next-generation sustainable energy and recovered material demands.
Plastic is a wonder material, made from oil, it has revolutionised the way we live in modern society. But there has been a hidden problem - finding a solution to deal with the waste. The inability to commercially and economically re-use waste plastic turns it into pollution - a toxic, destructive ‘plastic oil’ spill.
We are not incineration or pyrolysis. We use a low temperature, flexible and modular design, a viable energy ratio and achieve a high yield conversion. Our proprietary technology is designed on thermal catalytic processing, achieving a reliable and predictable business model, and a competitive advantage in economic viability and commercial application.
Using plastic waste as a resource
Our technology reverse-engineers waste plastic into a range of valuable resources, turning low value incompatible heterogenous waste into quantifiable high-value liquids, chemicals and gases
Plastics are made from hydrocarbon blocks (oil) which are linked together and made into solid plastic structures. These structures were designed not to break. Even nature requires over 1000’s of years to deconstruct them. Our process cracks them in seconds converting plastic back into its original building blocks
The technology is a combination of process and chemical engineering - a thermal catalytic science. It is a breakthrough in industrial competitive advantage due to: its predictable capability; the range of valuable chemicals and fuels recovered; its economic, continuous process; the high conversion yield; and low energy consumption.