Hydroelectric power plant – the electric energy generated at power plants is supplied to electrolysis plants.
Wind farm – the electric energy generated at power plants is supplied to electrolysis plants.
Nuclear power plant – the electric energy generated at power plants is supplied to electrolysis plants.
Solar power plant – the electric energy generated at power plants is supplied to electrolysis plants.
Consumer
Electrolysis plant – hydrogen and oxygen are produced in the electrolyzer by the method of inorganic membrane electrolysis. Hydrogen H2, obtained as a result of electrolysis, enters the hydrogen storage tank. The resulting oxygen O2 is consumed for consumer and production needs. Excess oxygen is released into the atmosphere. The process of producing hydrogen and oxygen is renewable. Water enters the electrolysis plant from the condenser.
Hydrogen storage tank H2 – Hydrogen enters the storage tank from the electrolysis plant and then enters the gas mixing unit.
Gas mixing unit – a mixture of hydrogen and natural gas coming from a high-pressure gas pipeline is formed in the gas mixing unit. The resulting mixture is transferred to the thermal power plant.
TPP – a mixture of gases obtained in the gas mixing unit enters the TPP. The thermal power plant generates electricity and heat, which in turn are transferred to the consumer. Flue gases and steam generated during the operation of the thermal power plant enter the Condenser.
Electrolysis plant – hydrogen and oxygen are produced in the electrolyzer by the method of inorganic membrane electrolysis. Hydrogen H2, obtained as a result of electrolysis, enters the hydrogen storage tank. The resulting oxygen O2 is consumed for consumer and production needs. Excess oxygen is released into the atmosphere. The process of producing hydrogen and oxygen is renewable. Water enters the electrolysis plant from the condenser.
Hydrogen storage tank H2 – Hydrogen enters the storage tank from the electrolysis plant and then enters the gas mixing unit.
Gas mixing unit – a mixture of hydrogen and natural gas coming from a high-pressure gas pipeline is formed in the gas mixing unit. The resulting mixture is transferred to the thermal power plant.
Boiler – a mixture of gases obtained by mixing hydrogen and natural gas is transferred to the boiler room. The heat received in the boiler, including heat from the condenser, is supplied to the consumer
Condenser – designed for heat recovery of water vapor flue gases generated at thermal power plants. The water obtained by steam condensation in the condenser, after its purification, is transferred to an electrolysis plant for the production of hydrogen and oxygen by electrolysis. The heat generated by the condenser is also transmitted to consumers.
Consumer
Condenser – designed for heat recovery of water vapor flue gases generated at thermal power plants. The water obtained by steam condensation in the condenser, after its purification, is transferred to an electrolysis plant for the production of hydrogen and oxygen by electrolysis. The heat generated by the condenser is also transmitted to consumers.
O2
O2
H2 and CH4
H2 and CH4

Technical solutions to reduce
emissions into the atmosphere

About us

We offer a wide range of solutions in the field of energy and hydrogen technologies.

  • Electrolysis plants;

  • Cryocylinders for LNG (liquid natural gas) storage;
  • Modernization of the internal combustion engine for a methane-hydrogen mixture;
  • Hydrogen-containing gas treatment systems for gas turbine and combined-cycle power plants;

  • Development of technical solutions for utilization of hydrogen-containing gases with further production of methanol;
  • The development of a GPU operating on a methane-hydrogen mixture. From 20% to 60% (hydrogen) and from 80% to 40% (methane), power up to 30 kW;
  • Exhaust steam condensation systems;

  • Autonomous installations of heat and power supply to remote consumers.

Our experience includes the implementation of projects in the following areas:

  • Industrial and technological engineering;

  • International cooperation in the field of alternative and hydrogen energy;
  • Energy efficiency;

  • Commissioning works.

 

Resources:

  • Own certified staff of qualified specialists;

  • Partner portfolio with leading equipment manufacturers;

  • Scientific base, development of prototypes.

Dependence of specific carbon dioxide emissions on the efficiency of the power plant during methane combustion

Efficiency value (%):
 
Calculate
The relationship between specific CO2 emissions and the efficiency of the power plant:
kg/MW*h

Fuel gas composition

Percentage of Hydrogen %
 
Calculate
Наши партнеры