THIS TECHNOLOGY WAS DEVELOPED EXACTLY FOR THIS PURPOSE!

The leader of the inventors of the TCG technology wanted to create a technology within the framework of his PhD thesis - primarily for the energetic processing of coal with almost zero emissions – which is

modular in nature,
flexible both in terms of organic material inputs and final products,
the technology should not be sensitive to mixtures of different organic substances in any ratio,
can operate with nearly 100% carbon conversion efficiency,
subsystems operate under computer control and a comprehensive control system,
consists of duplicated and triplicated subsystems, most of which can be replaced even during operation,

in addition to these, the list of requirements was added by order of the DOE:

almost any organic material can be used as an input material.

The technology was originally designed for the energetic processing of various coals, and then it was further developed so that any organic material can be used as an input.

This and its many patented solutions make it a unique and so far unparalleled device, which is capable of offering a solution to the world’s waste management problem by utilizing the energy use of today’s municipal and other organic waste, and even to the use of fossil energy carriers with almost no emissions or with significantly reduced emissions !

The existence of this technology proves that it is not the fossil energy carriers or the Municipal Solid Waste that are the enemies of the natural environment and our World, but the outdated and environmentally dangerous technologies and methods that we still use today instead of widely using the achievements of science and the development results of such researchers and practitioners , like M. Wiley.

The amount of GHG emitted annually is a significant consequence of the widespread use of traditional, high-emission technologies, and a radical change in this thinking is necessary, because we could not achieve such a reduction in GHG with other restrictions, or only with significant other sacrifices.

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History of gasification

History of Gasification. Gasification technology has been well known since 1609 when a Dutch scientist, namely, Jean Baptist van Helmont found the release of gas from coal (i.e., later known as syngas derived coal gasification; syngas mainly consists of carbon monoxide and hydrogen). We do not want to waste your time with summarizing again the basic facts of the gasificatoion, rather we are focusing the real goals of both the project owners and out company.

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Theroretic Background

Theory of the technology It incorporates several new technological developments and design features such as: modular construction and shop fabrication; no requirement for refractory brick; no requirement for separation and injection of oxygen; no sensitivity to moisture content in the feedstock; no requirement for pulverization or slurry injection of feed; flexibility in feedstock alternatives including varying proportions of coal, pet coke, biomass, sewer sludge or other organic waste in different proportions; utilization of a unique ionized water treatment system; capability of recycling un-reacted carbons back into the reactor chamber, and a near-zero air emissions and liquid discharge.

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Water shift reaction

„The water–gas shift reaction (WGSR) describes the reaction of carbon monoxide and water vapor to form carbon dioxide and hydrogen: CO + H2O ⇌ CO2 + H. The water gas shift reaction was discovered by Italian physicist Felice Fontana in 1780. It was not until much later that the industrial value of this reaction was realized. Before the early 20th century, hydrogen was obtained by reacting steam under high pressure with iron to produce iron-oxide and hydrogen.

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Gasification

„Gasification is a proven manufacturing process that converts hydrocarbons such as coal, petroleum coke (petcoke), and biomass to a synthesis gas (syngas), which can be further processed to produce chemicals, fertilizers, liquid fuels, hydrogen, and electricity.(Gasification is not a combustion process.) Gasification is a flexible, commercially proven, and efficient technology that produces the building blocks for a range of highvalue products from a variety of low value feedstocks. A hydrocarbon feedstock is injected with oxygen and steam into a high temperature pressurized reactor until the chemical bonds of the feedstock are broken.

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Steam reforming

„Steam reforming is the dominant gas reforming technology. It has a long history of development and has served as a source of syngas and hydrogen for years. In addition to its refinery use, steam reforming is now the preferred method of producing hydrogen for ammonia synthesis. The main reaction in steam reforming is syngas production as CH4+ H2O⇆CO+3H2, ΔH˚(1,000˚C)=+226.1kJ/mol. Additional hydrogen is generated by the water-gas shift reaction CO + H2O⇆CO2+H2, ΔH˚(1,000˚C)=−41 kJ/mol.

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Liquefaction

The Liquefaction in this meaning is a process when the synthesis gas - consisting of four gases - is used for manufacturing synthetique liquid hydrocarbon. These liquid “end product” can be any petrol, diesel, Jet A1, or other liquified hydrocarbon depending upon the length of the CH2 chain elements. In this kind of liquefaction process the most important thing is the quantity of both the CO and the H2 molecules, but if the end product is the electricity, the H2 content has to be very low, and the CH4 content has to be raised.

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No knowledge is certain, only the constant search for knowledge provides the basis for security.

If you need solution to a seemly unsolvable problem regarding the financially viable-, and environmentally safe application of organic waste materials or decreasing the emission of fossil fuels, do not hesitate

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