https://www.ib-edbauer.de/modules/mod_image_show_gk4/cache/Brandschutz.Simulation.01_schichtgrenzengk-is-253.jpglink
https://www.ib-edbauer.de/modules/mod_image_show_gk4/cache/Brandschutz.Simulation.02_Temperaturengk-is-253.jpglink
https://www.ib-edbauer.de/modules/mod_image_show_gk4/cache/Brandschutz.Simulation.03_Temperaturengk-is-253.jpglink
https://www.ib-edbauer.de/modules/mod_image_show_gk4/cache/Brandschutz.Simulation.04_Verrauchunggk-is-253.jpglink
https://www.ib-edbauer.de/modules/mod_image_show_gk4/cache/Brandschutz.Simulation.05_Diagrammgk-is-253.jpglink
https://www.ib-edbauer.de/modules/mod_image_show_gk4/cache/Brandschutz.Simulation.06_Diagramm2gk-is-253.jpglink
https://www.ib-edbauer.de/modules/mod_image_show_gk4/cache/Brandschutz.Simulation.07_Diagramm3gk-is-253.jpglink
https://www.ib-edbauer.de/modules/mod_image_show_gk4/cache/Brandschutz.Simulation.08_Schichtgrenzengk-is-253.jpglink

 

Fire simulations

 

Using complex calculations we can provide accurate information about the behavior of a building during a possible fire.

The use of results from a fire simulation can be used for different problems. It is therefore possible, to accurately interpret the structure of a building in case of fire. It is also possible with a simulation of a smoke extraction system to optimize its design in economic terms.

 

  • Calculation of temperatures
  • Calculation of smoke layers
  • Determination of flue gas saturations