PLASTIC CRACKING PROCESS

Sweet Gazoil™ offers an advanced waste valorization technology for even the dirtiest mixed plastics. Our units are adapted to profitably transform plastics that cannot be easily recycled and usually end up in landfills or incinerators. It can also treat waste oils at the same time.

Micro-Refineries

We are capable of profitably transforming waste plastics (preferably PP and PE) into quality ultra-low sulfur diesel (ULSD) fuels in small-scale micro-refineries. Using patented anti-fouling technologies (Surface Flash Cracking), our process is an order of magnitude more efficient than current plastic pyrolysis technologies, allowing a continuous and highly profitable operation. Each unit operates 24/7 and is manned by 2 people per shift for a total of 12 people (including administrative personnel), as it is highly automated once the mixed and dirty waste plastics are sorted from organics and easily recyclable material.

The ULSD provided by micro-refineries produces 4 times less greenhouse gasses (GHGs) than the same fuel originating from crude. Without even considering the GHG savings from reduced fuel and waste transportation, each micro-refinery will provide negative GHG emissions of about 4,000 tons of CO2e/year.

Operational costs are low and the value added to the plastics is much higher than by the cleaning and sorting of solids polymers. Units get their energy from about 10% of the energy in the plastics, the rest becoming useful products (mostly high quality ULSD). Although bigger units would greatly increase profits and efficiency, we believe small units are more environmentally friendly, as it greatly reduces GHGs associated with the inefficient transportation of light materials (plastics). Using our technology, approaching a zero-waste society can be profitable.

The feedstock for the process can either be mixed waste plastics (preferably PP and PE) obtained directly from materials recovery facilities (MRFs) or waste streams containing mixed plastics with large quantities of impurities, such as municipal solid waste (MSW). When waste plastics are mixed with many other types of materials, cost-effective sorting methods are used to isolate the plastics (with some impurities) and recuperate other valuable material, such as metals and glass. This allows for each fraction of the waste feedstock (plastics, organics, recyclables) to be optimally treated to achieve the greatest overall good. The organics obtained from sorting can be used to produce electricity and compost (anaerobic digestion), while the glass and metals obtained can be recycled. If the feedstock contains substantial amounts of PVC and/or PET, they can be separated by density from the PP and PE and sold as is. By combining cost-effective and small-scale solutions, the need for landfills and incinerators can be greatly reduced, and maybe eliminated all together.

Units can be placed near MRFs or in key locations near large urban areas to decrease waste transportation costs and CO2 emissions. By being able to more fully harness the energy from waste plastics, the installation of micro-refineries will bring added value to waste plastics, promoting their collection and decreasing plastic pollution.