RDF - tire – plastic wastes
- biomass is an ecological and economic resource!

Renewable energy 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%
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
⚡ Electricity Output: 2 MW – 12 MW per Module
Each processing module can generate
2 to 12
megawatts of continuous electrical power,
depending on the waste composition and the selected operating mode. This
modular design enables scalable deployment — from compact industrial units to
multi‑module, utility‑scale power blocks.
Electricity production can operate independently or as part of the integrated value chain (syngas → methanol → hydrogen → ammonia),
providing flexible revenue streams and grid‑support capabilities.

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
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 gasification 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.

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,
2.
How does the "autonomous energy loop" work without external
electrical energy?
Answer: The
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-
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
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 heating
value (LHV) of the RDF, the specific yield is 165–175 kg ultrapure hydrogen / 1
ton of pyrolysis coke from RDF. A 5 MW basic capacity module 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.
A World‑Exclusive System
Intelligent Microwave Steam Plasma Conversion
Turning Waste into High‑Value Energy Molecules
Waste → Electricity → Synthetic
Methanol → Green Hydrogen → Clean Ammonia

The synthesis gas is passed through catalysts, producing methanol. Methanol
is a globally traded, easily stored, and easily transported liquid energy carrier.
·
High energy density: ~22.7 MJ/kg
·
The carbon in the waste becomes a valuable product, not pollution
·
Methanol production is a stable, well‑established
industrial process
Methanol or ammonia can be easily converted into high‑purity hydrogen.
3 tons of RDF → ~1 ton of carbon → ~2 tons of methanol → ~375 kg hydrogen → ~2 tons ammonia
·
This yields 4× more hydrogen than direct gasification of waste
·
Methanol is a liquid hydrogen carrier: no high pressure, no cryogenic storage, simple logistics
Hydrogen derived from methanol reacts with nitrogen from the air to form ammonia. Ammonia is one of the world’s most important energy carriers and fertilizer base chemicals.
·
Contains 17.6% hydrogen by weight
·
Easy to store: –33 °C or 8–10 bar
·
High energy density: ~18.6 MJ/kg
·
Nitrogen is free, sourced directly
from air
·
Ammonia can be cracked back into hydrogen
·
A global infrastructure already exists (shipping, rail, storage)
·
3 tons RDF → ~1 ton carbon → ~2 tons methanol → ~375 kg hydrogen
·
Further synthesis yields ~2.1 tons ammonia
From the synthesis gas (H2 ~70% CO2
~30%) produced from waste, we can generate electricity, methanol, or ammonia. Both methanol and ammonia act as liquid hydrogen carriers, delivering large
quantities of hydrogen exactly where it is needed.
The
clean green energy source is synthesis gas from waste gasification.

Our global novelty is the
green hydrogen technology
from our
residential and tire waste, which is a Hungarian development, not only
"better" than existing solutions - it represents a completely new
category on the global market. Below is a precise summary of what constitutes
the true novelty and why no comparable integrated, catalyst free, grid
independent hydrogen platform exists today.The Current Global Landscape — and
Why Others Cannot Do What You Can. Today, the global market is dominated by
three technological pathways:
(A) Water Electrolysis (PEM, Alkaline, SOEC)
• 50–65 kWh/kg H₂ electricity demand
• Fully grid dependent
• Water demand: 9–12 L/kg H₂
• Cannot utilize waste as feedstock
➡ Technically and
energetically not an alternative to your system.
(B) Catalytic Gasification / Reforming (Ni, Fe, Co
catalysts)
• Tar formation → catalyst
poisoning
• Rapid deactivation due to
chlorine and sulfur
• Slag formation → reactor
blockage
• 800–1100°C, but not plasma ➡ Your catalyst free microwave plasma solution is in a
completely different league.
(C) Plasma Waste Treatment (face plasma, torch plasma)
• 3000–5000°C, but electrode based
• Electrode erosion → high
OPEX
• Not optimized for hydrogen
production
• No autonomous energy loop ➡ Your 915MHz microwave, electrode less plasma is unique
worldwide.
There is currently no technology that can produce
hydrogen:
• from RDF,
• without catalysts,
• using electrode less microwave
plasma,
• with a fully autonomous energy
cycle,
• at 99.999% purity,
• with 28–34 kWh/kg specific
electricity demand,
• without water and without grid
connection.
Novelty (Global Level) The system introduces multiple
innovations:
• Autothermal pyrolysis + pre
chlorine removal + pre desulfurization in a single step
• Self-heating
• Localized steam cooling to
prevent ash melting
• Electrode less 915MHz microwave
plasma applied to RDF derived feedstock
• Catalyst free, tar free hydrogen
production
• Closed loop energy cycle (mini
WtE → plasma → steam)
This combination does not appear anywhere in
the scientific or industrial literature.
Position on the Global Market. Therefore, the
know-how is a global novelty.

The power plant’s energy
source is syngas from waste gasification.
We have developed a two-stage waste gasification system
using a
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.
“Sustainable Energy for a Cleaner Planet”
Microwave steam‑plasma gasification
delivers a high‑efficiency,
near‑zero‑sludge waste‑to‑energy
solution with superior operational economics.”
72 tonns / day of RDF

🔹 Comparison: Conventional Gasification vs. Microwave Steam Plasma
Technology
Conventional gasification operates at 800–1000 °C
using air or steam, producing syngas mixed with tar and soot.
Its scrubber system generates large amounts of contaminated
wastewater and 1–1.5 t/day of inert sludge, requiring costly disposal.
Microwave steam plasma gasification, by contrast, runs at
1200–1500 °C in a clean plasma environment.
It yields ultra‑pure syngas (CO + H₂)
and only 0.2–0.3 t/day of inert salt sludge, which can be recycled or
crystallized through vacuum evaporation.
The process achieves near‑zero waste, closed‑loop
water reuse, and significantly lower operating costs..
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." ![]()
