Our plasma gasification of waste is a new technology

 

 

 

Renewable electricity production is a very good business opportunity for businesses.

Extra profit, investment that pays off in 40-60 months ROE (Return on Equity) 15 – 25%

 

Molecular Recycling of Waste

Microwave Steam Plasma Gasification for Energy

from Waste in our power plants design and construction.

 

  1. Our technology is making breakthroughs precisely where the market is under the most pressure: anticipating future regulatory and market trends for the sustainable management of organic waste, plastics and tires.

 

  1. We building electrical power plants that generate electricity from municipal solid waste (MSW) plastic and waste tires. The power plant’s energy source is syngas from waste gasification. The payback period of the power plant investment is 5-6 years

 

  1. We have developed a two-stage waste gasification system using a 2500°C microwave steam plasma that completely decomposes organic matter and produces a soot-free, NOx-free, high-hydrogen synthesis gas. There is no pyrolysis oil, no coke dust, and the solid residue is minimal and inert.

 

  1. Brief of microwave vapor plasma burner

 

    • Electrodeless operation (no erosion, no metal contamination)
    • High reactive, OH and H radical density
    • Uniform volumetric heating
    • No combustion; no nitrogen dilution
    • Function: Provides the thermal and chemical environment necessary for the complete decomposition of organic materials and the initiation of steam reforming reactions.

 

  1. The resulting synthesis gas can be directly used in radial gas turbines that operate without water, making it ideal for desert and water-scarce regions where steam turbine power plants are not viable. As an alternative, the gas is an excellent base for methanol or hydrogen production.

 

  1. With molecular recycling through gasification, we see not polluted waste, but reservoirs of carbon, hydrogen and oxygen atoms – the same atoms that make up our fuels, our products and our built environment. We translate this vision into technology.

 

  1. Our model combines waste management and energy production: on the revenue side, there is a waste management fee, electricity sales and syngas-based products. As a result, the return on investment can be reduced to 5–6 years in EU countries, but to 3–5 years in countries with high waste fees or energy import dependence.

 

  1. The technology is modular, scalable and targets markets where waste problems, energy needs and water shortages occur simultaneously: the Middle East, Southeast Asia, Southern Europe and Africa.

 

 

 

Our electricity power plant

Capacity 100-1000 tons of waste per day

Electricity output 2MW – 50MW

 

 

 

 

Electricity energy from wastes

 

           The population of our planet is constantly growing, so the amount of waste generated is also constantly growing, which can be used to generate electricity. Solar and wind energy are our ideal energy sources, but we also need to deal with waste, because it is slowly covering our planet. Electricity covers all our energy needs, there is no need for oil and coal, we can cook with electricity in the kitchen, use electric cars, cool and heat our homes.

 

           We build power plants that use syngas from tires and RDF as fuel for gas turbines. Our entire gasification process does not produce pyrolysis oil, coal dust, oil sludge, wastewater. Syngas is NOx-free, CO2 emissions are reduced. The synthetic gas produced is the fuel for gas turbines. There is no water consumption, so it can be used in desert environments, where drinking water is still a great value. Our goal is to provide the population of their settlements with locally produced energy from locally generated and locally collected waste, creating local jobs.

 

           Our waste recovery's environmental protection innovation incorporates microwave technology.  The microwave radiant in reactor space it creates a high-temperature field (electron temperature 6500°C) that efficiently disintegrates all complex compounds, such as resins, aromatic molecules, tars, etc. This technology leverages the intrinsic properties of microwave plasma for the effective decomposition of gaseous components. High temperatures in plasma jets can disintegrate organic or biological materials, neutralize potent toxins, and melt or vaporize stubborn inorganic substances, thus reducing waste significantly.

 

Demonstration plant that can be visited, electrical output: 1.85 MW

 

 

1111

 

About the total tar-free gasification…

 

Our syngas generator® that produces fuel for the gas engine power generator. A very important aspect at gasification, only pyrolyzed carbon (from RDF / plastic / tire / etc.) can be gasified to a quality suitable for a gas engine. Filter out the tar from the synthesis gas with the resulting pyrolytic carbon, then gasify the tarry pyrolytic coal. The tar produced during the refining of pyrolytic oil can be gasified to produce electricit, very importante because it is very important to know that the tar left over from the refining is 60% of the pyrolytic oil, this is a big loss of energy, so this must also be used for electricity!

 

Introducing the sample syngas generator® to investors

 

 

Plasma chemistry

 

When an electromagnetic wave propagates in the plasma, certain reactions occur between the particles.

 

The main types of reactions are:

 

  • Elastic collision and inelastic collision: such reactions lead to an exchange of energy between particles;
  • Excitation and ionization: such reactions result in an increase in the number of free electrons or a change in the energy level of the atom.
  • Charge transfer: this type of reaction results in an equivalent charge transfer between the particles.
  • This kind of reaction mainly takes place in the collision process of ions and neutral particles.
  • Charge recombination: it has two forms - diffusion and recombination.
  • Diffusion is the process by which a charged particle reaches the wall and electrode to disappear.
  • Recombination is a process in which positive ions capture a free electron and combine with electrons or negative ions to form new neutral atoms.

 

Our waste recovery's environmental protection innovation incorporates microwave technology

 

  • Microwave reactors are remarkable for their ability to achieve average operating temperatures around 6500 ℃, with material heating rates ranging from 100-1000 °C/s. The high temperatures, coupled with the strong ionizing effect of microwave plasma, result in the complete breakdown of complex carbon-containing molecules into simpler molecules and ions. The microwave in reactor space it creates a high-temperature field (6500 °C) that efficiently disintegrates all complex compounds, such as resins, aromatic molecules, tars, etc. This technology leverages the intrinsic properties of microwave plasma for the effective decomposition of gaseous components. High temperatures in plasma jets can disintegrate organic or biological materials, neutralize potent toxins, and melt or vaporize stubborn inorganic substances, thus reducing waste significantly.

 

Microwave steam plasma torch

Without fossil fuels heat source 6500℃ NOx and CO2 free emissions

 

 

Solar and wind power plants with waste-to-energy

 

Solar and wind energy are excellent renewable sources of electricity, but we also need to deal with the increasing amount of waste that can also produce electricity. Profits can be increased by sharing the grid connection of solar and wind power plants. It is fed into the grid during sunny or windy weather, but when the wind turbines stop or the sun's intensity decreases, for example at night, the electricity produced from municipal waste is utilized by utilizing the maximum (100%) of the existing grid connection capacity, 24 hours a day.

 

I am looking for co-investors and project owners for the global construction of waste-to-electricity power plants. Our waste-to-electricity technology is new on the world market, the electricity can meet all of humanity's energy needs. With the growing global population, waste production is also increasing, so waste-to-electricity power plants are an ideal solution. Our advanced plasma gasification technology avoids the production of pyrolysis oil, coal dust and tar. The resulting synthesis gas serves as a clean fuel for gas turbines that generate electricity, making the technology ideal for desert environments where drinking water is a precious resource.

 

 

Wind turbine blades

 

Wind turbine blades can be reused in a non-thermal microwave plasma field where the electron temperature is much higher than the generated gas temperature, including the vibrational and rotational temperature of the molecules. In the plasma space, all complex compounds such as resins, aromatic molecules and tars are effectively degraded and separated from the inorganic glass fiber reinforcement.

 

Our environmental protection innovation is the application of microwave technology. During the conversion of waste to syngas in the non-thermal microwave plasma field, the temperature of the electrons is much higher than the temperature of the generated gas, including the vibrational and rotational temperature of the molecules. In the plasma space, all complex compounds such as resins, aromatic molecules and tars are effectively degraded and separated from the inorganic part.

 

Plasmas contain reactive substances, especially ions, radicals or other oxidizing compounds, which can break down polluting molecules, organic particles, e.g. tar and soot.  It is excellent for the removal of heavily polluted air pollutants such as volatile organic compounds (VOC) and their fluorine-containing derivatives (FOC), the synthesis of special gases and the production of nanoparticles.

 

5 

 

Extraction of non-ferrous metals and precious metals from electronic waste.

 

Electronic waste, PCB, plastic waste with metal, etc. which it is only possible to safely smelt the non-ferrous metal - precious metal content after carbonization. The resulting non-ferrous metal - precious metal alloy can be decomposed into its highly pure 99.99% alloying metals (gold, palladium, silver, copper, aluminium, tin, lead, etc.)

 

Our innovation in environmental protection is the use of microwave technology Carbonization prior to smelting facilitates environmental approval in terms of emission limits, because during carbonization, we filter out the polluting components in the organic and inorganic condensate / condensate that would have gone out the smelter's chimney without carbonization. The carbonisation of waste in microwave vapor plasma.

 

The main advantage of steam plasma reactors is that there is no nitrogen in the microwave vapor plasma the plasma reactor, the gasifier and the plasma afterburner chamber, so there is no nitrogen oxides is 40 times more toxic CO, minimum carbon dioxid and odorless the emissione. The hydrogen introduced into the reaction space with the steam plasma slows down the reactions of gaseous sulphur, phosphorus and free chlorine formation to remove in the gas purification unit. When reacting with chlorine-containing substances, the microwave vapor plasma does not produce dioxin, which is one of the most toxic substances.

 

 

 

 

Hybrid Energy System for Continuous Data Center Operation.

Europe’s digital infrastructure is expanding rapidly, but stable, low-carbon energy supply remains a major challenge for data centers.

 

  • Our project implements a hybrid, circular and flexible energy architecture that is fully aligned with the priorities of the Innovation Fund, Horizon Europe and REPowerEU.

 

  • We integrate renewable energy sources, advanced waste-to-energy technology and plasma-enhanced gasification (>1500°C) to produce hydrogen-rich syngas for continuous, fossil-free baseload power generation.

 

  • A combined cycle turbine block (gas + steam) ensures high efficiency, while the recovered heat supports district heating, cooling and desalination, enabling full sectoral connectivity.

 

  • This approach results in significant greenhouse gas emission reductions, diverts waste from landfills and reduces grid load by enabling partial or full off-grid operation.

 

  • The system is modular (5-50MW), scalable in data centres, industrial parks and urban energy networks, and supports the EU’s goals for a circular economy, energy security and climate neutrality.

 

  • By converting waste into clean energy and integrating electricity and thermal power plants, the project provides a replicable EU model for sustainable digital infrastructure and regional economic growth.

 

 

  • Protecting our planet’s environment from the pollution caused by the increasing amount of waste. Utilizing the increasing amount of household waste instead of sending it to landfills is key to protecting our planet.

 

  • Governments support and funding are vital for poorer continents, as they cannot afford to put recycling before landfills. Recycling helps everyone, even richer nations, as we all live on the same planet.

 

  • Poorer continents, countries often seek our investment and financial support, as their environmental and economic situation is difficult. We would welcome opportunities for cooperation, including technology partnerships, power plant projects and investment ventures.

 

  • The energy source for our power plants is syngas generated from waste. Our gasification technology completely transforms waste at very high temperatures, producing syngas that is free of NOx, tar, pyrolysis oil and coal dust. This syngas powers gas turbines and engines, which are particularly suitable for water-scarce desert regions.

 

  • Methanol is a great alternative to fossil fuels like diesel and gasoline. By boosting the hydrogen content of synthesis gas to over 60%, it’s possible to produce methanol, essentially a form of liquid hydrogen.

 

 

Climate protection with green coal, a biochar

 

We design and manufacture biochar carbonizers from 2 tons/day – 50 tons/day,

 

  • Climate protection with green coal, a biochar- Biochar is an excellent substitute for soil strength, it is more than a fertilizer e.g. the corn stalks grown on 1 ha, when charred and plowed, extract 6 tons of CO2 from our atmosphere. Biochar makes the micro-flora of infertile soil fertile, and regulates the water balance and water-holding capacity of agricultural land. It forms a good base for the microorganisms necessary for plant growth.

 

  • Biochar composition from harvest waste: C 77.58%, Volatile matter 12.92%, SiO2 3.5%, Al2O3 1.9%, CaO 1.9%, K2O 0.1%, Na2O 0.5%, Fe2O3 0.75% , MgO 1.3%. , P2O5 0.17%) Biochar produced from animal bone is a high-calcium phosphate and low-carbon apatite mineral product, which is a macroporous and slow-dissolving natural organic P-fertilizer. Hydroxyapatite with a high phosphorus content is mostly composed of an inorganic mineral and a carbon component.

 

  • Biochar can improve the composting process and improve itself at the same time. Reducing nitrogen loss during composting is a notable benefit when compost is supplemented with biochar. The highly absorbent surface of biochar, on the other hand, is "charged" with humic acids, plant nutrients and living microorganisms.

 

  • Nutrient conservation. Plant nutrients are released into the ground water through leaching and into the air through evaporation. This means a decrease in the economy's efficiency and, beyond the fence, an environmental problem. Nutrient pollution is one of the most widespread, costly and challenging environmental problems caused by excess nitrogen and phosphorus in air and water.

 

  • The efficiency of the fertilizer improved significantly after the application of biochar. This was primarily observed as a reduction in the loss of plant nutrients. Like charcoal used for filtration, biochar (a type of charcoal) can help trap plant nutrients in the soil. However, it is important to note that most of the nutrients stored in the biochar are still available to the plant  it resists loss, yet can be used. Mixing biochar directly into compost for a single co-product application maximizes the nutrient retention benefits of biochar.

 

  • Water retention. Where biochar has been applied, soils show higher water holding capacity, better water retention, increased plant available water, increased plant resilience in drought conditions, and increased productivity per unit of water. The yield benefits of adding biochar to agricultural practices in the case of irrigation, the expected result is a reduction in the amount of water needed,

 

  • Source: EBC (2012) ‘European Biochar Certificate – Guidelines for a Sustainable Production of Biochar.’ European Biochar Foundation (EBC), Arbaz, Switzerland. http://www.european- biochar.org/en/download. Version 6.3E of 14th August 2017, DOI: 10.13140/RG.2.1.4658.7043 

 

 

Biochar patterns

tree twig, chicken litter, straw, corn stalk, furniture wood waste…

 The recommended amount is 4t/ha on hard soil, 8t/ha on sandy desert areas

 

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Sample plots for comparative measurement of yield

 

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Thanks for watching

 

 

Jozsef Nagy

 

Machine manufacturing technologist

Microwave emitters - steam plasma torch specialist

contact: gumienergia@gmail.com

 

My philosophy

 

 

My philosophy is, never be jealous of others' success. If you can't win a race, help the one ahead of you break the record. Your candle doesn't lose its light by lighting another. Let's follow this example of supporting and lifting each other up! This is a beautiful philosophy! Supporting and lifting others not only helps them succeed, but also creates a positive and encouraging environment for everyone. It's like spreading kindness and positivity, which can make a big difference in the world." 🌟