Our innovative chemical reactor technology allows a safe and efficient operation of highly exothermic and endothermic chemical reactions for decentralized applications.

Compact containerized chemical plants

The chemical reactors by INERATEC are perfectly suitable for the integration into containerized plants. The plants are modular and can therefore be applied to various energy related sectors. Depending on the application, different reactor systems can be integrated and combined in the plant. Our reactors allow a dynamic and load-flexible operation. Short start-up and shut down times make an operation on a decentralized scale attractive.

Production of syngas

Synthesis gas (syngas) is a highly energetic gas mixture, consisting of mainly hydrogen (H2) and carbon monoxide (CO). Two different reactor concepts are available for the production of syngas from methane-containing gases or carbon dioxide. Both concepts are operated safely on ambient pressure up to 30 bar.

CPOX reactor technology

  • Efficient syngas production from methane due to steam-assisted catalytic partial oxidation (CPOX)
  • Cost-effective operation using air as oxidant
  • Inhibition of undesired homogenous gas phase reaction, even at high operating pressures
  • Compact design with a monolithic catalyst system

RWGS reactor technology

  • Efficient process integration by reverse water gas shift (RWGS) of CO2, H2 and recycle gas.
  • Excellent heat integration for shift reaction
  • Compact design

Fischer-Tropsch Synthesis / Methanol Synthesis

The core of INERATEC’s innovative synthesis reactors is microstructured. Consequently, a very large surface for heat and mass transport is provided, minimizing effects on reactor and catalyst performance. Highly exothermic reactions, such as Fischer-Tropsch synthesis or Methanol synthesis, are operated efficiently and safely in compact plants.

The reactors are characterized by

  • Compact design due to the microstructure technology
  • High syngas conversion per reactor pass and unique reactor productivity
  • Excellent temperature control
  • Short start-up and shut down times
  • High load-flexibility
  • Cost reduction for decentralized application

Methanation

During the chemical conversion of CO2 and CO into synthetic natural gas (SNG), a large amount of heat is released. Our microstructured reactors allow a safe and efficient synthesis of natural gas on a wide pressure range.

  • Compact design due to microstructure technology
  • High conversion
  • Excellent temperature control
  • Short start-up and shut down times
  • High load-flexibility
  • Cost reduction for decentralized application

Chemical products from our plants

Synthetic natural gas

Synthetic fuels

Chemicals

Methanol