Turning Waste into Energy

GGI™Energy has developed, implemented, and improved a number of breakthrough technologies that:

-Allow using a wide range of waste types as feedstock.

-Produce no toxic air emissions, and minimize solid by-products.

-Highly improve the energy efficiency of transforming the waste-into-energy.

-Enable the process to be cost-effective and profitable even at a very small scale.

Our process has been approved for use in Europe, Japan, and we are currently undergoing the permitting process to install our first plant in the United States. Our Technology is protected under a number of patents around the world.

The Process


1. Pre-Treatment

The Process begins with Sorting, Crushing, and Dehydrating the feedstock. The conditions of this process depend on the type of waste that will be turned into energy. GGI™Energy's technology is suitable for a broad range of waste types and operating conditions. We have a number of pre-treatment processes that adapt to the waste's specific composition and water content. We have implemented solutions that process:

-Municipal Solid Waste

-Industrial Residues including plastics, mixed materials, paper, cardboard, etc.

-Commercial and Institutional Waste including mixed waste from Hospitals, Airports, Malls, etc.

-Agricultural Biomass including crop stocks, bagasse, pulps, hulls, grains, etc.

-Forestry Biomass including woodchip, sawdust, bark, branches, etc.

-Animal Biomass including manure, fats, etc.

-Food Residues including raw and processed elements as well as used cooking oil.

-Sewage Sludge, and other special applications.


2. Gasification

Our equipment generates very controlled conditions under which the specific waste type will decompose from complex into simple molecules. This combustion-free process results in minimal quantities of heavy gases and toxic materials. GGI™Energy's proprietary processes generate remarkably high yields of usable hydrocarbons across waste types. In addition, the energy consumed during the process is reduced, since a percentage of it comes from the use of by-products from later stages in the process. The result of this process is a highly rich synthetic gas (syngas).


3. Gas Conditioning

The syngas is purified using our patented advanced nanoparticle technologies that safely remove the heavy elements. This process results in plant emissions that comply with the most stringent air regulations. The product of this step is a rich gas with minimal contents of sulfur, mercury, NOx, and SOx pollutants. Our synthesis process stabilizes the gas and increases its hydrocarbon content. The syngas is separated according to its quality. The less-than-perfect gas is recycled into the system to power-up the operation.


4. Liquid Fuel

As a final step, the rich syngas is refined into commercial-grade liquid fuels that can be used directly to power vehicles, machines, or electricity generators. This results into ready-to-use FT Diesel and/or Kerosene. Our customers use this fuel directly on their vehicle fleets, sell it for additional revenues, or generate electricity to power-up their operations. The quality of this fuel is superior to petrol-based hydrocarbons, and has lower contents of toxic elements.

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Technical Features

GGIEnergy Waste-to-Energy Plants:

-Process 50 net tons of waste per day

-Produce diesel fuel / kerosene

-Require 7,000sq.ft. of space

-Operate with a staff of 5

-Complete the process entirely on-site

-Are provided as a turn-key operation

-Are ready to operate within days of delivery

-Generate no toxic air emissions

GGIEnergy's Waste-to-Energy is unique because:


-It results in certified ready-to-market, high-quality, low pollution liquid fuel

-Can process a range of waste streams

-Can be adapted to any scale of waste produced, from 20-500 tons per day

-Generates no toxic emissions

-Is safe and easy to operate, as well as cheap to maintain

-Is delivered as a turn-key solution

-Represents a financially viable and profitable operation.