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Trix 7

The Trix 7 and related Technology is the result of heavy years of study, researches and development of a group of inventors that, thanks to deep knowledge about the matter and its behavior and a specific intuition on the study of frequencies in relation to the matter used to generate and develop energy. The heart of the technology finds its natural humus within the Plasma Systems aimed at the optimized production of thermal energy: Trix 7 is therefor able to maximize efficiency thanks to its capability to “not combustion” of the material, but of its “implosion”, through re-spinning and decomposition mechanisms.

Plasma is based on a simple physical principle. By administering the energy, the states of aggregation change: a solid body becomes liquid, a liquid passes into a gaseous state. If more energy is added to a gas, it ionises and turns into plasma, a state of high energy aggregation called also the fourth state of matter.

The Plasma state was discovered in 1879 by Sir William Crooks but fully defined in 1928 by Irving Langmuir. Yet it is not a particularly rare state in nature. On the contrary: over 99% of the visible matter in the universe is in the Plasma State. On earth it is present in natural form, for example, in lightning or in the aurora borealis and Australis. During the solar eclipses it is possible to observe the plasma in the form of a luminous corona that surrounds the sun.

The contribution of energy determines the transition from a state of aggregation to the next according to the order: solid, liquid and gaseous. By administering additional energy to the gaseous matter with an electric discharge, the plasma is obtained.

Moreover, Plasma is a state of matter characterized by a high level of unstable energy. In contact with solid materials, e.g. waste, plastics and biological materials, the adducted plasma energy affects the surface and modifies some important properties, such as surface energy.

Trix 7 uses the latest innovation in quantum physics because to obtain the implosion of the molecules it interacts directly on the earth’s magnetic field and partly on the earth’s magnetosphere. Only in this way is it possible to obtain a magnetic compression load able to withstand very high temperatures, above 3000° Celsius.

Trix 7 can be applied in the most disparate sectors such as for example waste of any kind, eliminating them at the molecular level, preventing the continued burying or storing of waste.

There is a substantial difference between Trix 7 and incinerators or other normal waste systems: Trix 7 does not burn oxygen while others consume enormous quantities, and does not produce secondary effects of toxic substances that are instead emitted from other systems into the atmosphere.

Moreover, Trix 7 uses the energy obtained from the physical mechanical implosion without producing either CO2 (Carbon Dioxide) or 2-level elements such as: Dioxins, chlorinates, fluoranes, NOx and a whole range of 100 to 10 PM which would be the nanoparticles produced by waste-to-energy plants.

To get all this, Trix 7 uses a specific type of frequency for each waste: as for the energy issue, it is calibrated to produce a very high yield. The heart of this innovative technology, capable of generating a selfconsistent plasmatic system, is a proprietary mechanism for managing resonances and magnetic frequencies able of optimizing the yield of the material used as comburent: the feeding material can be either represented by “poor” materials, such as commercial-type pellets, or more “noble” materials, such as demineralized water emulsified with energetically efficient materials (for example oil). From the physical point of view, the Trix 7 is able to generate a vortex of micro frequencies that, interacting with the spin of the electrons of the molecule and reversing its rotation in a counter-clockwise direction, is able to make the matter implode generating temperatures beyond 3000 ° C. The residues derived from the production of energy in Trix 7 are negligible, in the order of 0.3%, present in the form of mineralized ash, which can also be used as an additive for soils. The fumes produced by the Trix 7 are similar to those of a simple domestic gas boiler.


First Usage

The first one is using it as a High-Efficiency Thermal Energy Generation System, which can be integrated with steam, electricity or cooling systems (using appropriate machinery that optimally exploits the generated heat).

Second Usage

The second one, undoubtedly the most valuable one, is its capability to the disposal, inerting and vitrification of different types of waste (MSW, industrial sludge, asbestos, hospital waste, etc.), without substantial generation of residues of any kind and with zero impact for the ecosystem. It is possible to activate configurations that can also dispose large quantities of materials (up to 50 tons/h, depending on the type of waste), in an absolutely safe configuration and with a guarantee of full-time operational continuity.


During the development of Trix 7 we have defined different models of plant, depending on the disposal capability. The main model we currently propose, called Trix 7 6.0, provides for a configuration and structuring capable of disposing material up to 4 Tons/hour (NB: the actual quantity depends on the basic caloric value and on the combustibility factor of the mix of material entered). This model can be used to dispose MSW, leaf stripping material, hedges and agricultural production in general, special hospital-type waste, cemetery waste, etc. There are explicitly not allowed and cannot be introduced in this model of plant: ferrous materials, glass and inert materials in general (bricks, rubble, aggregates, etc.), as well as special materials such as asbestos, industrial sludge, insulation and, in general, all those materials whose treatment produces inert residue, for which specific evaluations and configurations are mandatory.

The material introduced, for a result coherent with the expectations, compatible with the configuration and optimal in the yield, must be appropriately treated by means of shredders capable of reducing the incoming material into pieces of adequate dimensions (max 10×10 cm).

Trix 7 6.0 is supplied as standard in a 20Ft container whose general layout is as follows:

This configuration provides a complete Trix 7 6.0 autonomy for a H24 operation in complete safety. Trix 7 6.0 is completely self-sufficient both as for the supply of electric current, also through the presence of uninterruptible power supply units able to manage in emergency up to 1h of absence of main power, and for the necessary availability of systems of compressed air of adequate power and capacity.


Material Feeding Sub-System

Trix 7 6.0 has the main goal to dispose wasting material. This material must be inserted with specific blocks dimensions (max 10×10 cm) and in a continuous manner. All the feeding activities are managed with a high security management system able to define all the mechanic and delivery steps. The proposed system does not include the shredding subsystem, that must be available at customer site. This subsystem will then be connected to the Trix 7 6.0 by means of a circular loading system . This loading system too is not part of our technology. The decision not to propose in the standard Trix 7 6.0 model these two subsystem it depends on the fact that such systems are usually already present at waste treatment plants and are subject to specific constraints and regulations. We are however able to propose such a subsystem if requested by the customer.


Thermal Energy Management

Trix 7 6.0 produces a huge amount of thermal energy. Usually, in waste disposal plant, this energy is used just for heating and our Trix 7 6.0 has the capability to deploy such an energy to thermal instruments available by the customer site. However, we are able to define specific usages of such an energy converting it in:

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Electric Energy

This is done by means of heat exchangers and steam turbines that must be correctly sized depending on customer needs

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This is done my means of specific cooling generation plants.

All this customization will be carried on depending on the specific needs of the customer and the characteristics of the site where the Trix 7 6.0 system will be installed and configured.


Remote Control and Management

Trix 7 6.0 is a fully automated plant, managed by a topo level Management System based on ICT state-of-the-art systems. All the functionalities of our Trix 7 6.0 model are managed with high security level and with fully automated behaviors. The presence of local staff is mainly due to the management of feeding and general control. Our configuration, however, presents the capability to remotely connect the specific plant to a full-time available control room where all the parameters are monitored and security issues at top attention. This configuration guarantee moreover the capability to prevent possible malfunctioning of parts so to create a preventive maintenance process able to guarantee the full working state of our solution.


Delivery Method

The supply of Trix 7 6.0 includes a series of steps aimed at making the installation and subsequent usage optimal with respect to the customer’s needs. For this reason, specific phases are envisaged to design, define, implement, certify and test the envisaged system. Thanks to this operating model we are able to guarantee supply times and quality at the highest levels of the industrial world at an international level.

Design Specific Solution

The realization of the new system, in order to produce the maximum expected results, involves a specific phase of in-depth analysis of the client’s precise needs, in particular regarding the definition of the characteristics of the site where the plant will be placed and the characteristics of the mix of material that will be used. This phase, considered essential by us, will allow us to adapt the configurable and customizable features of Trix 7 6.0 as precisely as possible.


System implementation

The expected time for the realization of the complete system, including all the variants and the intermediate tests, is about 5-6 natural months. The most consistent part of this period concerns the supply of raw materials for the construction and realization of all specific processes. An important part of this time will be dedicated to the definition of the operation of the plant itself, in particular for the personnel and for the related training. This phase involves intermediate tests and before final testing at our factories, which are expected to have customer representatives present.

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