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Gasification Plants The state-of-the-art technology is a thermal conversion at ultra-high temperatures without oxygen. The key element of this space age technology is the ability to create intense heat at low cost through a specially developed heating system. To achieve this, INNOVATION was necessity to be developed which can withstand such elevated temperatures over a long period of time without corrosion or oxidation.
Contrary to incineration, there is no fire burning in the gasification reactor and therefore no smoke stack is required. The process insures the creation of a clean gas and a clean residue. Even the most stringent environmental laws and regulations are met.
This process converts all components of the waste stream, including toxic, non-toxic, and hazardous materials to usable forms of energy and an inert, clean residue.
At temperatures above 1'200oC it converts all the organic content of the waste stream to a high-energy synthetic gas "syngas", while the inorganic content is inverted to a clean, inert, non-leachable basalt-like material.
The approach is today's most advanced, high-tech waste-to-energy technology.
Because of the over-abundant and consistent supply of garbage being produced, it becomes a very valuable fuel material for the generation of "syngas" and subsequent electricity.
The process represents the next generation of technology in the Waste Management Industry. Through the installation of a plant, an organization, or community, can not only measure profits by what they save in transport, tipping and disposal fees, but they can now offset operational costs while generating a revenue stream based on the sale of energy (either gas or electricity) from the material that previously cost them disposal fees.
Space
The modular setup with a small footprint offers many advantages as it can easily be adjusted to the client’s requirements and can be erected on site right where the waste is created eliminating expensive and often dangerous transport efforts.
Ideally, the main equipment of the ultra-high temperature gasification unit is tightly fit into two space-saving containers. However, the modular concept insures flexibility; therefore a detailed planning and description of the entire facility layout can only be issued upon site inspection and final machinery selection.
Uses of end products
- We offers the following energy recovery possibilities.
- Utilization of the syngas with an afterburner, subsequent steam turbine and electricity generator respectively.
- Utilization of the syngas with a gas motor, combined with an electricity generator.
- Utilization of the off-heat with a conventional heat-exchanger for heating or cooling.
- Utilization of the off-heat with the electro-mechanical cell for electricity production.
- Utilization of the syngas for industrial applications to substitute oil and gas.
- Liquefying the syngas to synthetic petroleum.
- Conversion of the syngas to hydrogen and subsequent production of electricity with a fuel cell.
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