Technology

‘’Pyrolysis Technology is to convert waste Plastics into oil by heating at high temperature in the absence of oxygen. Special Catalyst converts all kind of plastics into hydrocarbons. No toxic emissions from the process. Mixed Plastics with moisture (which cannot be recycled and otherwise goes to landfill) can be converted. Plastic waste segregated from Municipal waste, Thermocole, FRP articles, multilayer packaging film, stickers, adhesive tapes, contaminated bags, etc can be processed. A distinct advantage of plastic pyrolysis into fuels as a means of recycling is its ability to handle mixed and unwashed plastics. Pyrolysis also enables recycling of plastic laminates, co-extrusions and multilayer packaging films, particularly those with aluminum foil layers or metallized polymers that are difficult to recycle using traditional reprocessing technologies such as Mechanical recycling.’’

About

Materials

MATERIAL THAT CAN BE PROCESSED BY PYROGREEN TECHNOLOGY ARE :

  • Multilayer films MLPs.
  • Laminates.
  • EPS / Thermocole.
  • PUF – Polyurethane Foam.
  • Adhesive tapes.
  • Plastics segregated from fresh MSW.
  • Plastics retrieved from Biomining of legacy waste.
  • Mixed Plastic Scrap – in any form.
  • Carry bags (even less than 20 microns).
  • Mono/multilayer pouches & sachets.

FUEL CHARACTERISTICS

  • High Calorific Value Fuel.
  • Low Sulphur Content.
  • High Flash Point.
  • Good Lubrication.
  • Specific gravity around (0.84).
  • Suitable of running DG Set

Emissions

There is no Solid / Liquid residual discharge from the plant. Air emission are very much less and conforms to European / Indian norms.

STACK EMISSION TEST RESULTS
NO. TEST RESULT EU Standards 2006
1. Concentration of particulate matter (Dust) 63.0 mg/Nm3 10 mg/Nm3
2. Sulphur Dioxide (SO2) 42 mg/Nm3 50 mg/Nm3
3. Oxides of Nitrogen (NOX) 82 mg/Nm3 200 mg/Nm3
4. Carbon Dioxide (CO2) 2.2% v/v -Not available-
5. Carbon Monoxide (CO) 2.0 MG/nM3 50 mg/Nm3
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