“Waste is an ASSET”

A PROCESS FOR RECYCLING WASTE THROUGH PLASMA GASIFICATION AND CONVERTING IT INTO ENERGY AND OTHER VALUABLE PRODUCTS

 

 

 

Plasma Technology Overview

SiPlasma - Plasma Gasification Technology - Outputs

Clean, Dry, Compressed Syngas

That can be used as a fuel. Some examples of products that can be produced are:

      • Standalone fuel
      • Power turbines to create electricity
      • Transportation fuels
      • Synthetic natural gas
      • Methanol
      • Synthetic petroleum fuel (dimethyl ether synthesized gasoline and diesel fuel).

       

Vitrified Glass Equal to the Inorganic Content of the Waste

The glass can be used to produce various building materials such as:

      • Building blocks
      • Decorative pavers
      • Roof tiles
      • Floor tiles
      • Building materials
      • Concrete aggregate
      • Variety of ceramic products.

       

Secondary Outputs

      Sulfur - The hydrogen sulfide (H2S) in the gas is scrubbed out to make fertilizer grade sulfur using a biological process or alternatively can be converted into sodium bisulfite
      Steam from Plasma Steam - It will be produced from the sensible energy off of the reactor that is captured and can be converted into
      Plasma water puification Purified Water - Any low-pressure steam (small amount) not used in the process is either condensed or can be used to produce distilled water in a multi-effect distillation unit
      Recycled Metals - The Plasma Gasifier will liquefy any metal. Separation of the metals is not required before the reactor. The metal that goes into the reactor, either comes out the bottom of the reactor or is removed by the gas cleanup system. Any metals that are recovered are sold to metal recyclers
      Hydrochloric Acid, HCL , lasma  Hydrochloric Acid - During the gas clean up phase of the process, hydrochloric acid (HCL) gas is absorbed into water and distilled to a 15-20% concentration.

 

>>> Plasma Gasification Technology - Advantages