Waste is an ecological and economic resource!

 

  

 

Ajánlatunk az önkormányzatok rezsicsökkentésére

49% önkormányzat + 51% magyar befektetők

Kapcsolat: Nagy József +3620 338 2107

WtE villamos- és hőerőművek fejlesztése Magyarországon amennyiben támogat az új kormányunk, nem állami finanszírozással, a MOHU állami monopol helyzetének megszüntetésável, ezzel a szabad verseny helyreállításával. Ajánlatom a magyar önkormányzatok rezsicsökkentésére. Villamos energia és távfűtő hőerőmű létesítése 49% önkormányzati tulajdonnal, a tőkeszegény önkormányzatoknak. Az önkormányzat nem vállal készfizető kezességet, nem vállal semmiféle anyagi kockázatot, csak közszolgáltatási feladatához kapcsolódó szerződéseket köt.

 

Az önkormányzati beruházás melletti érvek:
Az önkormányzat, ami a 49% tulajdonrész

• Az erőmű telephelyének apportálása

• 10-15 éves távhő vásárlási szerződés,

• 10-15 éves hulladékszállítási szerződés,

• együttműködésük az erőmű építésében

 

Az önkormányzati beruházás mellett szóló érvek:

• 49%-os tulajdonrész az 56 millió euró értékű erőműben

• A 49%-os éves osztalék 7-8 millió euró

• Stabil, olcsó távhő a lakosság és az intézmények számára

• A város energiafüggetlenségének megteremtése

• A hulladékgazdálkodási költségek csökkentése

• Helyi munkahelyek teremtése és a kkv-gazdaság ösztönzése

• Környezetbarát, modern technológia

• Nincsenek kigyulladt hulladéklerakók

• Nincsenek Taj Mahal méretű szeméthegyek

A technológia:
• nem égetés, hanem molekuláris hőbontás,
• minimális emisszióval működik,
• BAT (Best Available Technology) kategóriájú,
• látogatható, működő referenciákkal rendelkezik.

Jelentős önkormányzati bevétel:

• 49% tulajdonrész esetében
• évi 2,5 – 3,5 milliárd Ft osztalék,
• növekvő iparűzési adóbevétel,
• hosszú távú pénzügyi stabilitás.

A város távfűtési rendszere:
• kiszámítható költségű hőt kap,
• csökken a külső energiafüggés,
• csökken a lakossági és intézményi rezsiterhelés.

Hulladékkezelési költségek csökkenése:
• csökkenti a lerakási díjakat,
• csökkenti a szállítási költségeket,
• megfelel az EU hulladékhierarchiának.

Munkahelyteremtés­:
• 60–80 üzemeltetési munkahely + 150 építés alatt munkahely
• helyi vállalkozások bevonása további 40 új munkahely
• regionális energetikai központ létrejötte

Jogi megfelelőség, a konstrukció megfelel:
• a Mötv. önkormányzati feladatellátásra vonatkozó előírásainak,
• az Áht. kezességvállalási korlátainak,
• az EU állami támogatási szabályoknak,
• a közszolgáltatási szerződések jogi kereteinek.

 

Teljes körű projektbiztosításunk van 10 – 15 évre!

Ez a konstrukció a WTE‑projektek egyik legerősebb banki biztosítéka,

a bennünket hitelező bank számára azt jelenti, hogy:

• a hitel tőkéje és kamata garantált

• a projekt teljesítménykockázata biztosítóra kerül

• a cash‑flow stabil és előre tervezhető

• a DSCR‑kockázat minimális

• a projekt bankképes (bankable)

 

 

 

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.

 

 

Molecular Recycling of wastes (Gasification)

Peter Kalenuk PhD, UNIVASTUM

 

• Mechanical separation are necessary but insufficient. They cannot process the heterogenous, contaminated, and complex waste streams that constitute the residual 30-50%. The Molecular Frontier – Gasification as the Ultimate "Separation" If the limit of physical separation is the molecule, then technologies that achieve molecular deconstruction represent the pinnacle of recycling philosophy. This is where advanced gasification and related thermochemical processes enter.

 

• How It Works: From Waste to Syngas. Unlike mass-burn incineration that simply oxidizes waste to produce heat, advanced gasification is a controlled thermal process using high heat (typically 700°C to 1500°C) in an oxygen-limited environment. This "partial oxidation" does not combust the waste but instead breaks apart the molecular bonds in virtually all organic components (plastics, paper, textiles, food waste, biomass) and even some inorganics. The complex hydrocarbons, carbohydrates, and polymers are shattered, reforming into a primarily gaseous mixture called synthesis gas or "syngas." This syngas is predominantly carbon monoxide (CO) and hydrogen (H₂)—the universal molecular building blocks of chemistry.

 

• The New Products – Building a Circular Society from Molecular Feedstock. This is where the vision becomes tangible. The molecules from our waste are no longer destined for a hole in the ground or a smokestack; they become the literal foundation for a sustainable industrial society.

 

Conclusion…

 

• For too long, "recycling" has been synonymous with sorting and melting. "Waste-to-Energy" has meant just that—getting BTU value from destruction. This paradigm has hit its logical and practical limit at a global recovery rate of roughly 50%.

 

• The next frontier is chemical. By embracing molecular recycling through gasification, we stop seeing a tangled mess of waste and start seeing a reservoir of carbon, hydrogen, and oxygen atoms—the very atoms that make up our fuels, our products, and our built environment.

 

• We move from managing waste to mining the anthropogenic mine. The ultimate form of recycling is not putting a bottle back into a bottle. It is breaking that bottle, and everything around it, down to its elemental essence and then having the technological sovereignty to rebuild from those molecules the materials and energy a sustainable civilization requires. That is the true meaning of maximum processing and reuse. The technology exists.

 

• The question now is one of will, investment, and policy to integrate this final, decisive piece into the global circular economy puzzle.

 

 

• 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

 

  

 

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."