Waste is an ecological and
economic resource!
The sad reality is also in the video below
Our revolutionary gasification process for
tires and plastics represents a significant advance in the industry.
·
Our novelty, we have
created the syngas generator® capable of transforming tires and plastic into
fuel for gas engines or turbine generators, generating sulfur- and tar-free
synthesis gas. The gasification takes place in two stages, the first stage
starts at a temperature above
·
For instance, during
the initial phase, tire gasification at
·
In comparison to steam
turbines, the investment cost is halved and it provides greater electrical
efficiency. The high-temperature waste heat from the gas turbine and engine can
be harnessed to produce electricity, boosting the electrical efficiency of the
combined cycle power plant beyond 50%.
· Additionally, our environmental innovation incorporates microwave technology. The notable benefit of steam plasma reactors is their production of hydrogen and oxygen solely from water vapor, a process free from NOx emissions and without odor.
Disposal and
energetic utilization of hazardous medical waste
The
primary benefit of microwave vapor plasma reactors lies in the absence of
nitrogen from the air in the microwave vapor plasma, resulting in only hydrogen
and oxygen production from water vapor. This leads to no nitrogen oxide
emissions, minimal carbon dioxide, and no odors. These reactors are adept at
processing solid materials, toxic gases, and liquids, significantly reducing
the volume of hazardous waste by up to 99%. Additionally, microwave technology
is effective for neutralizing and disposing of hospital hazardous waste,
contributing to hospitals achieving a "no waste" certification.
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.
Our waste recovery's environmental
protection innovation incorporates microwave technology
Microwave
reactors are remarkable for their ability to achieve average operating
temperatures around 2500 ℃, 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 (1500-
About the microwave vapor plasma torch
1400℃ temperature without fossil fuels
„zero carbon dioxide – zero nitrogen oxide”
A high-power pure steam torch plasma is operated by a
microwave ranging from 915 MHz to 2.45 GHz, along with temperature measurements.
Steam from a generator enters the discharge tube as a swirl gas at
approximately
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 carburizing.
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.) in a self-sustaining way in terms of electricity
and heat (gas, coke and the so-called pyrolytic oil obtained from energy
carriers) in emissions within the limits of environmental protection.
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. (filtering with condensate is used as
a pre-filter for the flue gas)
Dismantling waste cable
Tire waste - plastic waste is
an ecological and economic resource!
We help individuals, generate energy and
create jobs while providing an impressive return on investment.
With energy costs rising and the volume
of waste tires and plastics increasing, tire distillation offers a solution.
This process breaks down the rubber in used tires into its basic components
through heating and distillation. The end products, which can be oils, gases
and solids, serve as fuels, chemicals and materials in various industries.
Recycling and reusing used tires in this way solves a significant environmental
concern. It is crucial to understand that tire distillation is not
incineration; rather, it is the thermal decomposition of the material.
Waste tire, PET, PE, PP, PS gasifier -
carbonizer - fuel distiller…
Waste tire and waste plastic distillation
for GENSET and diesel car fuel
1 pc waste tire =
Renewable energy can be derived from waste
tires for electricity and heating.
Our technology allows for the conversion of organic waste into
usable materials.
Waste tire, RDF,
PET, PE, PP, PS carbonization equipment
Waste tire, RDF,
PET, PE, PP, PS carbonization equipment
Environmental protection
in flue gas treatment
Our method of filtering flue gas for
quality according to EU 2000/76 / EC directives
By means of flue gas filtering, the small power plant is
inexhaustible for the renewable - with more and more raw materials annually.
For the production of electrical and thermal energy from wastes, it is
necessary to filter the flue gas produced during the combustion process from
the combustion, which is ensured by the ceramic filters and by injecting the
adsorbents in front of the filters to the pollutant content according to the EU
2000/76 / EC directives, to the air quality. Emissions from flue gas are below
the permissible air emission limits provided by the ceramic filter. The flue
gas is filtered with ceramic filters by adding adsorbents. The emitted flue gas
component is continuously monitored by the analyzer, the measurement results
are documented by continuous data recording.
Description of
the catalytic conversion of foam ceramic filter elements by calcination
Raschig foam ceramic, which Ni, Cu, Mn, Pt, etc. can be
made catalytic with metals, e.g. with the following procedure for Ni
We use
nickel nitrate hexahydrate (Ni [NO3 ]2, 6H2O), AR - grade
and calcium nitrate (Ca [NO3 ]2, 4H2 O), AR - grade.
Precursors for the preparation of solutions in three different mass ratios 1:
5, 2: 5 and 4: 5. Then, the large-surface ceramic ring carriers are soaked in
precursor solutions in a hot pool at
Waste shredder
17 kNm
Heat pipes are
superconductors of heat conduction
Their thermal conductivity is 1000 times higher than e.g. for
solid copper conductors of the same size.
Characteristics of the "superconducting heat
exchanger"
Vacuum distillation of wastewater at ambient
temperature
The
traditional distillation process consumes a significant amount of energy due to
the high latent heat of water (620 kWh/ton). Distillation involves evaporation and
condensation within a vacuum. The heat energy necessary for continuous
distillation is reclaimed from the outgoing distilled water at the start of the
process in a closed system using our highly conductive heat exchanger. Both
evaporation and condensation occur in the same vacuum space, necessitating only
the compensation for vacuum loss caused by non-condensable gases escaping from
the wastewater during evaporation and any leaks in the tank-pipe system. This
is achieved by maintaining the vacuum pump at an absolute pressure of 7-25
mbar. The energy needed for water evaporation is sustainably sourced from the
wastewater, with the system's sole external energy requirement being the
electricity to power the vacuum pump.
Key economic and environmental features
of thermal vacuum distillation at ambient temperature include:
Economical and eco-friendly uses of
thermal vacuum distillation:
Electricity from waste heat
Our machine resource for electric power generation…
The
slot-controlled steam engine
Thanks for watching
Jozsef Nagy
Machine manufacturing
technologist
Microwave
radiants – vapor plasma burner electronics specialist
I am a manufacturer and designer in the waste energy market
contact: gumienergia@gmail.com
My philosophy
Don't ever be jealous of others' success, help the person in
front of you break the record. Your candle doesn't lose its light by lighting
another. Supporting and uplifting 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.
Climate protection with green coal
(biochar)
Biochar is an excellent substitute for soil
strength, it is more than a fertilizer
E.g. the corn stalks grown on
· Biochar is an excellent substitute for soil
strength, more than a fertilizer, it can be used for soil improvement,
especially in fields with poor productivity. e.g. just mixing 1kg of biochar on
1m2 of soil can increase the crop yield. 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: 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 is a stable material that can be
produced from biomass or
organic waste of plant and/or animal origin, and which has many applications in
environmentally friendly agriculture. Biochar is used to improve the physical
and/or chemical and/or biological properties of the soil, and to strengthen the
activity of the soil, it is suitable for restoring the natural balance of the
soil, it can make crop cultivation economically profitable by improving the
drought tolerance of plants, the soil productivity and crop production
characteristics.
· 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. For the most part, hydroxylapatite with a high phosphorus
content consists of an inorganic mineral and a carbon component. It has a low
carbon content, but can contain up to 30% P2O5, from
which phosphorus can be gradually utilized, it has a macroporous structure,
which makes it suitable for increasing microbiological activity in the soil,
and it also has good moisture binding and macromolecular organic nutrient
retention capacity.
· Plant-based biochar is a soil improvement
product with a high stable carbon content, micro- and mesoporous structure, which has a relatively high moisture
and nutrient retention and carbon binding capacity. Plant-based biochar is
primarily used for soil improvement, and biochar produced from bone meal is
used as an organic phosphorus nutrient and also for soil improvement.
Sample plots for comparative measurement
of yield
The recommended amount is 4t/ha on hard soil, 8t/ha on sandy
desert areas
Biochar "green
coal" is the "result" of soil power in pictures
This can be a mutually beneficial relationship;
How it is made biochar and electricity
from sewage sludge?
· Our process is a sewage sludge dehumidifier
and gasification device, which allows us to use the phosphorus and
potassium-containing phosphorus and potassium to dry the wastewater treatment
plant (20% dry matter content) in a continuous operation without using an external
energy source. and micro elements (Fe, Mn, Ca, Zn and Cu). During the process,
starting the system requires only thermal energy, the heating of the radiators,
and then the heating value of the dried sludge produces more heat and
electricity than the need for heat and electricity in the drying process. The
biochar obtained during gasification can be used as an inorganic fertilizer
that can be considered as renewable and can be used at any time of the
vegetation, due to the lack of nitrogen content.
Advantages of using
biochar and compost mixtures
· 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 does not contain any biohazard
component. Because we use controlled sludge from a given wastewater treatment
plant, it can be traced well to contain no toxic inorganic
components. Summarizing business profits: An essential element of our
system is the direct connection of the wastewater treatment plant with our
energy recovery system, which eliminates the energy costs of the sewage sludge
transport and the pollution of the environment, and from an environmental point
of view it is a fact that the drying of the sludge necessary for the energetic
utilization of sewage sludge does not have wastewater discharges, as the 80%
sludge is vacuum-dried at 80% water. the resulting distillate after
condensation of the water vapor is of drinking water quality.
Drinking water is the basis of our biological
existence, without water there is no life.
· The extraction of fresh water from air and
seawater is a given technology, which can be utilized from our renewable energy
source, our solar radiation.Water pumps require solar energy (solar panels) to
produce fresh water, and thermal energy (solar collectors) is required for
vacuum distillation In addition to electricity from solar panels and thermal
energy from solar collectors, desalination also takes place from the difference
between the temperature of the seawater.