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Тhe Management Company TRT "Forest Venice" realized, the program for the production of new module generators for Brown's gas production by catalytic method, that meet the requirements of today's market.

Conventional commercially available oxygen and hydrogen, which are produced ​​by conventional electrolysis and being sold exist in the form of O2 and H2, i.e. the two gases have two atoms in the molecules. This is a more stable state of these gases than, if individual atoms are separated (charged ions) in which there is an atom in the insulation. The problem with the H2 and O2 as flammable gases is that before a reaction begins for it to convert into H2O, they should be broken down into atoms H and O. The Needed  energy therefore is higher than that at which they get to interact for the production of H2O.

What is making Brown's Gas unique and especially valuable is that it is not in molecular form. Hereby, they are in a state of monatomic (one atom per molecule). In this state, according to the combustion of hydrogen (reaction with oxygen), 3.8 times more energy is recovered.

Per one liter of water 1866.6 liters of Brown's gas is produced. In normal state H2: O2 you only win 933.3 liters. Let's say that we have been able to attract a sufficient amount of atomic H and O mixture for combustion in the gas burners, the flame temperature would be much higher than ordinary combustion of hydrogen. Then, we would get a "hot" flame because no energy for the dissociation of H2 and O2 is spent, that we have in the catalytic process of the production of gas.

This additional energy can also explain some other strange effects of Brown's gas, such as the smelting of tungsten or the formation of clean holes, as if they had it burned with a laser in wood, metal and ceramic. Temperature of the monoatomic Brown's gas is 3.8 times higher than that of the traditional mixture of H2 and O2.

Brown's Gas Generator, will change the world

Unfortunately, all previously known methods for the production of Brown's gas (the gas) or hydrogen and methods of storage and transport are uneconomic.

In the fuel cell as much energy is produced, how it was spent on the production of hydrogen, and if one anticipates, additional costs (and energy consumption for the storage, manufacture and transport), the efficiency of fuel cells always turn out negative.

There are researches in other countries for new sources to produce hydrogen, such as high-speed generators, special regimes and schemes of electrolysis.

One solution to this problem could be the Brown's gas production in an unconventional way.

Our scientists have managed to solve this problem successfully

and the energy consumptionin the production of gas practically

reduced to a minimum.

A way has been found to produce gas at a commercially reasonable price for the firing of steam boilers or heating houses, not to mention the production of cheap electricity in unlimited quantities. A limitation exists only in respect of the money that has been invested in the project at the start of production. The technology is completely environmentally friendly. Emissions discharged; there is no CO2.

This was made possible by use of combined effect of the chemical reaction at the gas production, the new catalysts and the process. The reaction is made ​​possible at atmospheric pressure and ambient temperature. The gas that is produced in the catalytic process, does not require additional cleaning and can be immediately directed to the burners for combustion and steam generation. The catalytic process for the production of gas may be interpreted by us for any required volumes.

The main advantages of the technology are:

• fuel efficiency

• the relative simplicity of construction

• low weight and size of the equipment with high performance

• low cost of the materials used.

• None of the existing analogues has similar technical specifications.

Technical Parameters

Dimensions of the modified and tested generator enables installation in a standard 20' shipping container. This allows for installation on any territory of now existing thermal power plants.

Performance of a 15 m3 unit, mounted in a 20 ' container is 390 million cubic meters of gas per year.

Energy costs for the catalytic process max. 0 (zero) Kw / h in the production of 1 m³ of gas.

In other words: There are no costs for electricity in the process of gas production itself but only causing energy costs for maintenance of the system, the technical LED lighting, security cameras and sensor systems for monitoring of concentration of the gas, emergency shutdown systems, gas compression in the technology chain and pumps.

The cost of production of 1 m³ of gas in plant operation in a 20' container will be 0.01 Euros. Expected selling price:  € 200.00 per 1,000 cubic meters.

Manufacturing of generators. Implementation and interpretation of the generators in accordance with DVS 2205 for 25 years with the installation in such 20' containers. Production is fully certified with a TÜV certificate by the manufacturer in Sankt Augustin (Germany).

Environmental protection. During combustion of the gas, no gas mixtures of carbon dioxide and carbon monoxide gases, vapors (CO, CO2, and C) are ejected into the atmosphere as compounding in the combustion of natural gas and various nitrogen, lead and sulfur, which are formed during the combustion of various hydrocarbon fuels. After his cremation no "normal water" but "super pure water" is formed, that purity is higher than in distilled water. This water is then passed from the boiler of the thermal power plant back to the generator unit.

Refueling with the catalyst with water is not required earlier than three years, but not more often than once a month to perform.

The guarantee is given for operating at maximum loads at 60 months. The duration is not less than 10 years.

The market

Since our generators produce clean fuel, in this respect, the development of a global energy market is realistic.

In Germany alone, 54 coal-fired plants must be reconstructed with a total capacity of over 36,000 MW / h, which must be closed by the decision of the German government. In our process, it is only required to convert the existing  boiler by gas burners of the German company Pillard Combustion GmbH and to install our generators to the grid.

The amount of gas sold to be recorded by the gas meters of the German company Messtechnik GmbH Vemtec.

The same reconstruction can be extended to power plants that are actually fueled with oil or natural gas. This completely liquidates the CO2 discharges into the environment. During the combustion of 1,000 m³ e.g. of natural gas in the environment 536 kg of carbon are emitted. In ourcombustion gas, there are no emissions of carbon.

The annual turnover for our technology, can, according to the estimates of experts, to be middle of the third decade of this century, more than a trillion US Dollars, which would exceed the annual revenue of the information technology.

What means the reconstruction of power plants:

• Increasing the competitiveness of existing CHP `s on the electricity market.

• Reduction of costs for production of thermal and electrical energy through the upgrading of hydrocarbons or natural gas into cheap hydrogen fuel.

• Stabilization of the financial situation of the power plant owners

• Reduction of price increases for electricity and heat

• Complete lack of effects of nuclear power plants on the environment

• preservation of jobs.

Economic and social impacts in the implementation of this project:

The implementation of this project is able to reverse many of the technological and economic aspects of industrial and municipal enterprises and improve the environment in different regions of the world.

The generator will allow to gain gas from water through environmentally friendly and inexpensive methods;

allows to create compact high-energy parks, that can be a platform for common industry of project participants and as a mechanism for applications in energy;

allows the development of the back land through the supply of agricultural enterprises (livestock complexes, etc.) and other manufacturers with electricity, heat, algae food, vegetables from greenhouses and fish from fish farms. All this will increase competitiveness and reduce prices for food.

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