Conversion of waste into clean hydrogen and electricity
Next-generation modular zero-emission technology for a sustainable future
EcoPlazma Technologies offers a next-generation module for waste processing using plasma gasification. The unit operates autonomously, deriving all necessary energy from its own syngas.
The resulting CO₂ is not released into the atmosphere but is captured and redirected for further use, ensuring complete decarbonization of the process.
We convert asbestos, organic, and plastic waste — from the most hazardous to everyday materials — into clean hydrogen, electricity, and valuable resources. Our technology does not emit CO₂; instead, it captures it for reuse (CCU/CCUS), ensuring full decarbonization and a closed-loop green cycle.
— Emission-free
— Smoke-free
— No need for pre-sorting
EcoPlazma Technologies
Who we are
We are a team of scientists, engineers, and entrepreneurs united
by the goal of transforming waste into resources.
We offer a full cycle of project implementation based on cold plasma technology — from design and licensing to launch and technical support.
We offer
Turnkey project design
Permitting and regulatory support
Equipment supply and automation
Personnel training
Ongoing support and modernization
Partnership models with joint management
About us
Our values
Environmental sustainability
Scientific approach
Technological flexibility
Compliance with EU standards
(ESG, Taxonomy)
Technology
PlasmaReclaim
All substances passing through the plasma arc zone undergo deep thermochemical conversion to atomic and radical states. As a result, no toxic by-products such as dioxins, furans, or polycyclic aromatic hydrocarbons are formed, making the process completely environmentally safe.
We transform waste — from household to the most hazardous — into resources of the future: clean hydrogen, energy, technical-grade carbon, and CO₂ for further use. Our technology operates on the principle of CCU/CCUS (Carbon Capture, Utilization, and Storage): carbon dioxide is captured and redirected for reuse rather than released into the atmosphere. This ensures full decarbonization of processes, addresses the global waste problem, and simultaneously creates value for sustainable development.
EcoPlazma Technologies is based
on the principle of material gasification using extreme temperatures (up to 2400°C), generated by cold plasma formed through a matrix of graphite electrodes.
Gasification refers to what happens to the material — it is converted into gas.
Cold plasma refers to how it happens — via exposure to high-energy plasma in an oxygen-free environment.
Key Advantages
Zero CO₂ Emissions – up to 99.7% gas purification efficiency. No Pre-Treatment Required – processes a wide range of waste, including: Mixed plastics, rubber, industrial residues, agricultural waste, sewage sludge, food waste, biomass, contaminated wood, medical waste, and Asbestos.
Modular & Scalable Design
– quick installation and easy expansion
Multiple Valuable Outputs
– clean electricity, hydrogen, and inert dry residue
Fully Automated & Safe – reliable, secure, and operator-friendly technology
Technology
PlasmaReclaim
Asbestos
Our technology enables the safe and complete neutralization of asbestos waste — one of the most hazardous and difficult-to-dispose materials in the world. Through plasma gasification, asbestos is fully broken down at the atomic level, eliminating the formation and release of asbestos dust into the atmosphere. This makes the process not only safe for the environment and human health, but also compliant with the strictest EU and international regulatory standards.
EcoPlazma Technologies offers the Best Available Technology (BAT) for asbestos processing: instead of landfilling and escalating environmental risks, we convert this dangerous waste into valuable products — hydrogen, electricity, and inert materials. This approach combines the disposal of highly hazardous waste with the production of low-carbon hydrogen, fully aligned with the criteria of the Green Deal, EU Taxonomy, and Fit-for-55.
Plastic
We process a wide range of thermoplastics — from low- and high-density polyethylene (LDPE, HDPE) to polypropylene (PP), polystyrene (PS), and acrylonitrile butadiene styrene (ABS). These materials are widely used in the production of packaging, containers, and everyday consumer goods. Thanks to our technology, all listed types of plastic are processed without the need for prior sorting or special preparation. The output includes hydrogen, electricity, technical-grade carbon, and CO₂ (for further use). A portion of the syngas is used for self-generation of electricity, while surplus energy is sold to external grids.
tires and rubber
Worn-out tires and industrial rubber waste are efficiently processed without additional energy costs for shredding or feedstock preparation, using self-generated electricity. Our technology also enables complete extraction of sulfur contained in rubber in a pure powdered form, eliminating environmental risks associated with traditional disposal methods. As a result, the output includes hydrogen, electricity, technical-grade carbon, CO₂ (for further use), and powdered sulfur. A portion of the syngas is used for self-generation of electricity, while surplus energy is sold to external grids.
mixed
msw and RDF
Thanks to our technology, mixed municipal solid waste is processed without the need for prior sorting or special preparation. Drying and shredding are integrated into the production process and powered by electricity generated from syngas. The output includes hydrogen, electricity, technical-grade carbon, and CO₂ (for further use). A portion of the syngas is used for self-generation of electricity, while surplus energy is sold to external grids.
Railway sleeers
We process used wooden and composite railway sleepers, often treated with creosote or other chemicals that complicate disposal by traditional methods. The output includes hydrogen, electricity, technical-grade carbon, and CO₂ (for further use). A portion of the syngas is used for self-generation of electricity, while surplus energy is sold to external grids.
Sewage Sludge, Poultry and Swine Manure
We process organic residues — including sewage sludge, agricultural waste, and food waste — into clean hydrogen, electricity, and carbon-based materials. These products become key components of energy independence for any region.
Biomass and Agricultural Leftovers
Organic residues — such as straw, husks, stalks, and by-products of forestry — are processed into key components of energy independence for any region: hydrogen and electricity. The waste processing module is powered by its own independent electricity generation source, derived from renewable natural resources.
Wind Turbine Blades and Composite Materials
Durable composite structures are known for their complexity in recycling. We embrace this challenge by applying plasma gasification technology, incorporating these difficult-to-process materials in specific proportions alongside primary waste streams that offer the highest conversion efficiency into hydrogen, electricity, technical-grade carbon, and CO₂ (for further use).
Technology
Result
Pure hydrogen
High-purity hydrogen extracted from syngas, suitable for use in fuel cells, industrial processes, or as a clean energy carrier in the hydrogen economy.
Electricity
On-site power generation from syngas, enabling energy self-sufficiency or grid integration with a low-carbon footprint.
Inert ash residue
suitable for construction
A stable, mineral-rich byproduct that can be repurposed as a raw material in road building, concrete production, or other construction applications.
Liquefied CO₂
High-purity carbon dioxide, extracted from synthesis gas and captured during the process, can be liquefied and utilized across various industries. It is used in the food sector, agriculture, fire suppression systems, and for technical applications.
Technological cycle
Services
Our Services Include
A thorough technical evaluation of project conditions, including initial data collection, risk analysis, and development of optimized engineering solutions. This stage lays the groundwork for a reliable, efficient, and scalable system.
Full support in obtaining all necessary environmental, construction, and operational approvals in compliance with local and international regulations.
Coordinated supply and installation of equipment and software components, with full integration on-site. The project is handed over in a fully operational, ready-to-use state — delivered safely, efficiently, and on time.
Comprehensive onboarding and instruction for system operators. We introduce intelligent automation solutions to enhance speed, accuracy, and stability while minimizing human error.
Ongoing technical support including scheduled diagnostics and upgrades. We monitor performance and provide targeted improvements to keep the system aligned with the latest standards and evolving needs.
A partnership-driven model where the client remains actively involved at every stage. We foster open dialogue, integrate feedback, and work toward shared success — creating value together.
All projects are scalable
from 10 to 90+ tons of waste per day
Our modular solutions are designed for flexible scalability, accommodating waste processing volumes ranging from 10 to over 90 tons per day.
Whether for local facilities or large industrial operations, each system can be tailored to meet specific capacity and performance requirements — ensuring efficient resource management at any scale.
Partnership
We Welcome Strategic
and Investment Partners
- Developing regional hydrogen hubs
- Co-implementing pilot or commercial-scale projects
- Integrating into infrastructure and ESG-driven initiatives
- Licensing our technology and localizing production
- Integration of waste from sorting operators into the development of an energy-independent industry
EcoPlazma Technologies represents a synergy of advanced technology, sustainable business, and environmental responsibility. We integrate plasma gasification, strategic project management, and an investment model that transforms waste into hydrogen, energy, and valuable materials. This symbiosis enables us to address global environmental challenges while creating long-term economic value for partners and society.
Our Team
Brains Behind the Breakthrough
Contact us
Ready to turn waste into value?
Contact us to join the movement
toward scalable, sustainable solutions
EU Taxonomy Compliance
The EcoPlazma Technologies project meets the criteria of the European Taxonomy for sustainable investments (EU Taxonomy) as a technology making a substantial contribution to combating climate change:
✓ Category: Climate Change Mitigation (Article 9(a), EU 2020/852)
✓ Activity Type: Production of low-carbon hydrogen and electricity from waste
✓ LCA Analysis: < 3.5 kg CO₂e / 1 kg H₂ — qualifies as “low-carbon hydrogen”
✓ Zero Emissions: No discharge of water or toxins (Zero Liquid Discharge + 3-stage filtration)
✓ DNSH (Do No Significant Harm): Compliance with all 6 EU environmental criteria
✓ Circular Economy: Processing of mixed plastic waste, RDF, biowaste, and asbestos
✓ Minimum Safeguards: ESG approach, human rights, occupational safety
Our hydrogen and energy are produced without fossil fuels—only from waste.
This makes our project a tool for achieving the EU’s climate and circular economy goals.
