About PAG/V Technology

Plasma Assisted Gasification and Vitrification (PAG/V) systems are an advanced form of gasification that use thermal plasma arc torches to achieve process temperatures in excess of 3,400 deg F. At such temperatures, organic chemical bonds are broken, and inorganic materials are melted down. Carbon rich organics are primarily converted into synthesis gas (“syngas”), comprised mostly of carbon monoxide and hydrogen. Metals and inorganic oxides (i.e. glass) are melted down and recovered as ingots and glassy materials.  All products become feedstocks for subsequent value-added commercial applications.

Syngas is a highly versatile chemical feedstock. There is nothing that can be made from fossil fuels that can’t be made from syngas. Ideally, syngas will be converted into feedstock chemicals such as methanol, ethanol, dimethyl ether, acetic acid, etc. to be used for subsequent synthesis by the chemical industry.

Plastics produced from syngas are “virgin plastics” with the same quality and properties of plastics produced from fossil fuels. Waste-syngas-methanol-products/plastics offers a true pathway to the circular economy sustainability.