Computational Fluid Dynamics:

• Simulation of flow, mixing, combustion and heat transfer processes
• Simulations to analyze and optimize burners, combustion chambers and furnaces
• Simulation of the combustion of gaseous fuels (natural gas, bio gas, syngas, sewage gas, etc.)
• Simulation of the combustion of oil and coal
• Pollutant emission reduction (CO, NO_X, Soot)
• Evaluation and optimization of processes (glass, aluminum, steel, ceramics, etc.)
• Quantification of fuel properties (GWI data sheets)

Simulation Examples:

CO-Distribution in a Glass Melting Furnace	Streamlines in a Combustion Chamber with Heat Exchanger
Heat Flux Density Distribution in an Aluminium Melting Furnace	Velocity Distribution a Quart Block

 

 

		ANSYS FLUENT	Computational Fluid Dynamics to Describe Flow, Mixing, Combustion and Heat Transfer Processes	www.ansys.com
		ChemCAD	Process Simulation of Chemical Engineering Plants	www.chemstations.com
		Cosilab	Detaillierte eaktionskinetische Simulation (0D/1D/2D) von Verbrennungsprozessen und Reaktornetzwerken	www.rotexo.com
		GasCalc	Quantification of Properties of Gas Mixtures, Exhaust Gas Compositions	www.GasCalc.com
		kesa aladin	Process Simulation of Chemical Engineering Plants	www.kesa.de
		STANET	Simulation of Pipe Networks	www.stafu.de