Kaltimex Energy is proud to announce that we are now representing GGI Energy (GGIE) for certain identified projects to develop Waste-To-Energy using Pyrolysis technology. GGIE is a company specializing in Renewable Energy, both as the technology developer and manufacturer as well. They hold international patents for their technology and their projects spread in Australia, Asia, India and North America.
Pyrolysis is the thermal decomposition of complex organic matter in the absence of oxygen to simpler molecules that can be used as feed stocks for many processes. The main products produced by the pyrolysis process are activated carbon, diesel and syn-gas.
Pyrolysis consists of a endothermic reaction. General combustion occurs through the generation of heat in the Pyrolysis chamber producing solids and liquids. The feedstock is heated at moderately high temperatures in a low oxygen atmosphere.
Diesel produced by this pyrolysis process can be used purely as a fuel, or for other related end products. The syngas produced in used for the pyrolysis combustion process and to run the power generation turbine(s).
The biomass used in pyrolysis is typically composed of cellulose, hemi-cellulose and lignin. The main parameters that govern the pyrolysis process are temperature, heating rate, solid residence time, volatile residence time, particle size and density of particles.
The products produced in the process vary and depend on the feedstock type. Ie: cellulose material and some biomass produce biochar and activated carbon. Mixed Residual Waste (MRW) and Municipal Solid Waste (MSW) feedstocks product Diesel and Electricity and a small amount (10% of weight) of inert ash.
MSW feedstock processed the pyrolysis technology transforms hazardous materials into a number of main products such as activated carbon, diesel and syn-gas.