The market position of my
technology: → globally unique, unrivaled category.

⭐ Autonomous Green Hydrogen Plasma → Project Green
Flow, Globally Unique Value
✔ 99.99–99.999% ultra‑pure
hydrogen from RDF, fully compliant with the ISO 14687 fuel‑cell standard.
✔ Clean CO₂ reused, stored for a sustainable
future.
This technology is the first in the world to combine:
• 900 °C autothermal pre‑carbonisation
(tar, methane and halogen removal)
• 1500 °C microwave steam plasma (complete molecular cracking)
• Catalyst‑free, stable hydrogen production
A fully autonomous energy loop (a Waste‑to‑Energy
→ Hydrogen system operating without external power)
⭐ 2. Dual Product
Strategy: Two Hydrogen Grades, Two Markets
a) Fuel‑Cell Grade Hydrogen (99.99–99.999%)
• Mobility (buses, trucks, rail)
• Hydrogen refuelling stations
• Electronics and laboratory
applications
• High‑value, premium
market segment
b) Industrial Grade Hydrogen (97–99%)
• Metal processing, glass
industry, chemical industry
• Heat treatment, reduction
processes
• High‑volume, long‑term
industrial contracts
The technology can serve both markets simultaneously,
maximising revenue and flexibility.
⭐ 3. Zero Tar,
Zero Methane, Zero Catalyst Operation.
The plasma reactor:
• Eliminates tar completely
• Produces 0% methane in the
product gas
• Requires no catalysts
• Is insensitive to sulphur,
chlorine, and heavy metals
⭐ 4. Autonomous, Modular,
Decentralised Energy System:
• Generates its own process heat
• Produces its own electricity
• Is modular (1–5–10 MW units)
• Can be deployed in any region
producing RDF
This enables local hydrogen production with no grid
dependency.
⭐ 5. EU Alignment:
Perfect Fit for All Major Policies. The technology directly supports:
• REPowerEU
• Fit for 55
• EU Hydrogen Strategy
• Circular Economy Action Plan
• Net‑Zero Industry Act
• Hydrogen Valleys
⭐6. Environmental Impact: Zero Tar, Low Emissions,
• Clean CO₂ Stream
• No tar
formation
• No methane emissions
• No NOₓ
/ SOₓ oxidation products
• Clean CO₂ reused, stored for a sustainable
future.
• Replaces waste incineration
• Reduces landfill dependency
A circular‑economy, climate‑positive, EU‑taxonomy‑aligned
technology.
⭐ 7. Strategic Advantage: A New Category in
Hydrogen Production
• This technology is not
gasification, not pyrolysis, and not reforming.
• It defines a new category:
• Autonomous Microwave Plasma
Hydrogen Platform
• A defensible, unique, high‑value
technological position with global scalability.
⭐ Summary – Why This Technology Matters
✔ Produces premium hydrogen from
RDF
✔ 99.999% H₂
– fuel‑cell grade
✔ 97–99% H₂ – industrial
grade
✔ Zero tar, zero methane, zero
catalysts
✔ Autonomous, modular,
decentralised
✔ Dual revenue model
✔ Fully EU‑aligned
and funding‑ready
✔ A globally unique technological
combination

I. TECHNICAL AND
TECHNOLOGICAL ISSUES
1. How can the quality
(moisture, chlorine, ash) fluctuations of RDF be handled in the plasma reactor?
Answer: The two-stage structure of the system solves
exactly this problem. The first, 900 °C autothermal pre-carbonization stage
homogenizes the heterogeneous RDF. In this phase, moisture is converted into
steam (which is necessary for the subsequent vapor plasma reaction), halogens
(chlorine, fluorine) are converted into a gas phase and separated, and tars are
partially broken down. An energetically and structurally stabilized, gasified
hydrocarbon matrix enters the 1500 °C microwave plasma reactor, so the
heterogeneous feedstock does not cause instability in the plasma.
2.
How does the "autonomous energy loop" work without external
electrical energy?
Answer: The 1500 °C plasma chemical process produces
an extremely high-energy, hot synthesis gas H2 and CO2.
The tail gas remaining after hydrogen separation (PSA/membrane technology) and the
high-temperature waste heat from the high-pressure process are passed through
an integrated steam turbine generator (OR a high-efficiency gas engine). This
internal energy production (parasitic load management) covers the power
requirements of the microwave magnetrons and the system's own heat
requirements. Although the net hydrogen yield is somewhat reduced, the system
becomes completely independent of the electricity grid.
3.
What about the lifespan of plasma torches?
Do they require very little maintenance? Yes,
because Project Green Flow uses electrodeless microwave plasma technology,
unlike traditional arc plasma systems where metal electrodes are quickly worn
down by extreme heat of 5000-15000°C and corrosive gases, requiring replacement
every 150 hours. With microwave plasma, there’s no physical contact between the
electrode and the plasma, and the magnetron only needs replacing every 8000
hours. This significantly reduces component wear, keeps operating costs low,
and supports the continuous 24/7 operation needed for waste treatment.
4.
How can 99.999% fuel cell purity be guaranteed from a waste-based system?
Answer: The key to purity is complete molecular
dissociation at 1500°C. At this level, all complex hydrocarbons (tar, methane,
dioxins) are broken down to their elemental atoms (\(H, C, O). Complex
contaminants that would destroy the purification units in traditional gasifiers
are not present. After the plasma reactor, a multi-stage gas scrubber
(scrubbers against sulfur/chlorine) and a dedicated PSA (Pressure Swing
Adsorption) / Palladium membrane polishing unit operate, which guarantees
ultra-pure quality according to ISO 14687 for the mobility market.
II. BUSINESS AND ECONOMIC QUESTIONS
5.
What is the specific hydrogen yield of the system? (1 ton RDF
= ? kg H2)
Answer: Depending on the composition and calorific
value (LHV) of the RDF, the specific yield is 65 – 75 kg ultra-pure hydrogen /
1 ton dry RDF. A module with a base capacity of 5 MW processes approximately
14,000 tons of RDF per year, from which ~1,000 tons of hydrogen are produced,
after deducting the internal consumption of the autonomous energy loop.
6.
What is the EU regulatory status of hydrogen produced from RDF? (RED III
compliance)
Answer: Under the EU Renewable Energy Directive (RED
III), hydrogen from the biogenic fraction of RDF (wood, paper, cotton) is
considered renewable, while the part from the fossil fraction (plastics) is
classified as RCF (Recycled Carbon Fuel). RED III explicitly recognizes and
supports RCF fuels in hard-to-decarbonize sectors (e.g. heavy vehicles,
aviation, industry), making Green Flow’s hydrogen fully eligible to meet
partners’ decarbonization quotas and claim government subsidies.
7. Why
is this system more cost-effective for a waste management giant than their
existing WtE (Waste-to-Energy) incinerators?
Answer: For two main reasons: economic
sustainability and regulatory protection. Higher margins: Traditional
incinerators produce cheap electricity or heat with low efficiency. Green Flow,
on the other hand, produces premium, high-value-added hydrogen, the market
value of which is many times higher than electricity. ETS tax exemption: The EU
is gradually extending the carbon emissions trading (ETS) obligation to waste
incinerators, which is drastically reducing their profitability. Green Flow's
closed technology produces a clean, concentrated CO₂ stream that can be
directly captured (Carbon Capture) and sold (CCU/CCS), so the partner is exempt
from incineration taxes.

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
Breakthrough Waste-to-Energy Innovation. The next generation
oxygen-free microwave steam plasma (MSP) gasification system. We build electric
power plants, the power plant's energy source is syngas from waste gasification.
We have developed a two-stage waste gasification system that uses 1500°C
microwave steam plasma, which completely decomposes organic matter and produces
soot-free, NOx-free, high-hydrogen syngas. No pyrolysis oil, no coke dust,
minimal solid residue and inert.
New and unique
50% syngas recirculation → self-stabilizing, energy-saving operation
• Recycled gas balances the fluctuating heating value of
municipal solid waste (MSW).
• The reactor's thermal equilibrium is close to
self-sustaining with minimal external energy requirements.
• Recirculation increases the lower heating value (LHV) of
the gas, making the turbine branch more efficient.
• Such recirculation logic is not found in any conventional
gasifier.
Microwave steam
plasma – ultra-clean, high-intensity conversion
• Microwave-excited steam plasma provides equivalent
reaction intensity above 1400–1500°C.
• Complete tar and plastic degradation at the molecular
level.
• Turbine-grade, H₂/CO-rich synthesis gas without
nitrogen dilution.
• NOx-free operation, as the process is completely oxygen-
and air-free.
• The CaO–MgO phases of the dolomite bind HCl and SO₂,
stabilize the slag and reduce corrosion.
Key
technological innovations
· Microwave steam plasma (MSP) technology
· Reaction intensity equivalent to 1400–1500°C
· Complete degradation of tar and complex organic matter
· Ultra-pure H₂/CO rich synthesis gas without nitrogen
dilution
· NOx-free operation (no air injection)
· 10–12 MJ/Nm³ turbine-grade synthesis gas
· Near zero tar and particulate content
· Inert slag for construction purposes
· 90–120°C waste heat for district heating
The system:
· eliminates tar formation
· minimizes emissions
· delivers exceptional financial performance
· through electricity and district heating integration
District heating
integration
· 0.8–1.5 MWth thermal output per MW
· 10–18% annual additional revenue
· High biogenic municipal solid waste ratio → +0.9–1.3
million euros additional revenue per MW per year
· IRR growth: 28–36% → 35–42%
· Stable, long-term cash flow
CO₂
reduction and ESG benefits
· No combustion → no flue gas scrubber, no NOx
· 40–55% biogenic carbon → partially carbon neutral
· 8,000–12,000 t CO₂ savings per MW per year
Unit economics
(per 1 MW module)
· CAPEX: €6.5–7.5 million
· OPEX: €0.9–1.2 million/year
· EBITDA: €3.2–4.1 million/year
· Payback: 3.8–5.2 years
Modular,
scalable, decentralized waste incineration platform
• Small footprint, fast deployment, containerizable modules.
• Ideal for industrial parks, cities, waste treatment
plants.
• The system does not burn, so the strict regulations of
classic waste incinerators do not apply to it.

The power plant’s energy source is syngas
from waste gasification.
We have developed a two-stage waste gasification system
using a 1500°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.
New and unique is the 50% syngas
recirculation → self-stabilizing, energy-saving operation
• The recycled gas balances the fluctuating heating value of
municipal solid waste (MSW).
• The reactor thermal balance is nearly self-sustaining,
with minimal external energy requirements.
• Recirculation increases the lower heating value (LHV) of
the gas, making the turbine branch more efficient.
• Such a recirculation logic is not present in any
traditional gasifier.
Microwave steam plasma – ultra-clean,
high-intensity conversion
• Microwave-excited vapor plasma provides equivalent
reaction intensity above 1400–1500°C.
• Complete tar and plastic degradation at the molecular
level.
• Turbine-grade synthesis gas rich in H₂/CO, without
nitrogen dilution.
• NOx-free operation, as the process is completely oxygen-
and air-free.
• The CaO–MgO phases of the dolomite bind HCl and SO₂,
stabilize the slag and reduce corrosion.
Microwave steam plasma in technology
• 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.
Oxygen-free operation → lower cost,
cleaner gas
• No air, no oxygen → no NOx, no nitrogen dilution.
• Gas heating value is 30-40% higher than in air/oxygen
gasifiers.
• No expensive NOx treatment systems → lower
CAPEX/OPEX.
Modular, scalable, decentralized WtE
platform
• Small footprint, fast installation, containerizable
modules.
• Ideal for industrial parks, cities, waste treatment
plants.
• The system does not burn, so the strict regulations of
classic waste incinerators do not apply to it.

Új korszak köszöntött a
hidrogéntermelésre – egy önmagát működtető reaktorral.
Míg a legtöbb hidrogéntechnológia költséges, energiaigényes
és hálózatra kötött, mi más utat választottunk.
Plazmareaktorunk saját energiát termel RDF-ből vagy
gumiabroncsokból.
🔋 2 MW villamos energia + 4 MW hő saját kis
erőművünkből
🔥 16 x 100 kW-os plazma fáklya – extrém hő, nulla
hálózatfüggőség
♻️ 50%-os szintézisgáz-recirkuláció – a
hulladékhő ismét hidrogénné alakul
🌬️ Levegőadagolás – az exoterm reakciók
hajtják az endoterm reakciókat
💧 Vízgőz + szén – tiszta hidrogén a legegyszerűbb
bemenetekből
Miért működik ilyen hatékonyan?
- A rendszer minden hőt megköt – semmi sem vész kárba.
- A kimenő szintézisgáz fele visszakerül a reaktorba.
- 900–1100 °C-on ez a gáz szabad hő, amely újra
felhasználható.
- Az újrahasznosított gőz és a CO₂ ismét reakcióba
lép, több hidrogént termelve.
- Az endoterm reakciókat exoterm reakciók hajtják, a plazma
csak finomhangolódik.
Eredmények:
⚡ 1 tonna pirokoksz → ~100 kg hidrogén (pirokoksz
RDF-ből és/vagy gumiabroncsból)
⚡ 1 kg H₂ → ~16 kWh plazmaenergia (a piaci
átlag 3–6-szorosa)
- Stabil gázkeverék: 75% H₂, ~25% CO₂
- Teljesen önellátó, hálózaton kívüli működés
Miért fontos a befektetők számára:
- A hidrogén Európában 8–15 €/kg-ért kapható
- Az önellátásnak köszönhetően nincsenek villanyszámlák
- Moduláris kialakítás a gyors beállításhoz
- Megtérülés 3–4 éven belül
- Kettős bevétel a hulladékból energiát előállító és a
hidrogénből,
99,999%-ban tiszta hidrogénnel és tiszta CO₂-vel,
amelyet
újrahasznosítanak vagy tárolnak a fenntartható jövő érdekében.

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
Demonstration plant that can be visited,
electrical output: 1.85 MW
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:
Our waste recovery's environmental
protection innovation incorporates microwave technology
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.
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.


Climate protection with
green coal, a biochar
We design and manufacture biochar carbonizers from 2
tons/day – 50 tons/day,

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

Sample plots for comparative measurement of yield

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." ![]()
