OxySteel

Energy efficiency and demand side management in steel by the use of oxyfuel an CCU technology

OxySteel encompasses the increase of energy efficiency b the use of novel technologies and he evaluation of DSM potentials in a steel mill. The first goal is tachled by the development and implementation of a new process design using oxy-fuel combustion and CCU. The second objective is to identify flexibilities for the increased use of renewsable energy sources and possibile grid service.

 

The steel industry is a facinating area of research because efficiency measures have a big impact. For example after the implementation of OxySteel, we expect annual energy savings of 12 GWh. This equates to approx 10% of the annual gas consumption a subsequent technology rollout, the savings are multible thereof.

Thomas Klenberger, Head of Chair of Energy Network Technology, Monatnuniversität Leoben.

Main Goals

  • Identification of flexibilities and energy efficienxy in procress heat production by the use of oxyfuel combustion.
  • Replacement of gas burners by oxy-fuel burners.
  • Recudtion of the required electrical storages and support of the stability of the electrical power grid.
  • OxySteel demonstrator project in Breifenfeld Edelstahl AG steel mill

Key Facts

Duration

09/18-08/21

Demonstration Budget:

€ 1.802.500

Research Budget:

€ 665.974

 

 

Opening hours

Mo-Do 09:00-15:00
        Fr 09:00-12:00

 

Directions & location plan

Franz-Josef-Str. 18
A-8700 Leoben, Austria