Hydrogen production

Green hydrogen is a promising solution for the clean energy transition. It offers opportunities for cost reduction, energy efficiency and sustainability.

We offer individual projects with guaranteed efficiency and support them at all stages - from feasibility studies to service.

Integrated approach

We take responsibility for the complete realisation of your project. This includes not only the installation of the electrolyser, but also the entire associated infrastructure, as well as all phases of the project from FS to commissioning and service provision:

heat integration

electrical connection

cooling and water supply systems

video surveillance and security systems

preparation of the site for accommodation

After start-up, we provide service, monitoring and technical support for the entire operation cycle.

With us you don't just get equipment, you get a working, cost-effective system.

Technologies

Depending on the tasks and conditions, we realise projects on the basis of three technologies.

Alkaline Water Electrolysis

Technology 1

Alkaline Water Electrolysis (AWE) is a proven and popular hydrogen production technology based on the splitting of water with electricity in an alkaline electrolyte solution. The alkaline solution increases the conductivity and efficiency of the process.

Advantages

Reliable and durable - the technology has been in use for over 100 years.

Low cost of equipment compared to other electrolysis methods.

Suitable for industrial scale due to stable operation under constant load.

Key parameters

Efficiency:

stable, suitable for continuous operation

Hydrogen purity:

99.5-99.9%

Pressure:

1-30 bar without additional compression

Energy consumption:

4.5-5 kWh per 1 m³ H₂

Alkaline electrolysis is widely used in industry, power generation and transport, especially where large-scale hydrogen production with minimal operating costs is required.

PEM electrolysis

Technology 2

PEM electrolysis (Proton Exchange Membrane Water Electrolysis) is a modern water electrolysis technology that uses a proton exchange membrane to efficiently separate water into hydrogen and oxygen. It provides high hydrogen purity and flexibility of operation under different conditions.

Advantages

High hydrogen purity: up to 99.999%.

Compact and flexible: quickly switched on and operating in alternating mode, suitable for integration with renewable energy sources.

Safe: does not require liquid electrolyte, reduces the risk of corrosion.

Key parameters

Efficiency:

high, especially when integrated with renewable energy sources

Hydrogen purity:

up to 99.999%

Pressure:

up to 40 bar without additional compression

Energy consumption:

4.5-5.5 kWh per 1 m³ H₂

PEM electrolysers are used in transport, energy storage and off-grid systems, as well as in projects integrated with solar and wind farms.

Plazmalys Methane Splitting / Low Carbon Hydrogen

Technology 3

Plazmalys Methane Splitting / Low Carbon Hydrogen is an innovative hydrogen production technology based on the decomposition of methane molecules using a plasma discharge. Unlike traditional steam reforming, this process does not emit CO₂ into the atmosphere, but releases carbon in solid form. It also does not require the use of water.

Advantages

4-5 times lower energy consumption than electrolysis.

No carbon dioxide emissions as the carbon is emitted in solid state.

The efficiency is higher than that of aqueous electrolysis.

Key parameters

Efficiency:

the highest among hydrogen technologies

Hydrogen purity:

up to 99.999%

Energy consumption:

about 1 kWh per 1 m³ H₂
(vs. 5 kWh for electrolysers)

Methane plasmolysis is suitable for industrial production, regions with cheap natural gas, and businesses looking to minimise their carbon footprint without the significant cost of carbon dioxide capture.