GAS APPLICATION

In addition to traditional natural air-gas combustion, a significant number of furnaces use oxy-fuel combustion (mainly in Italy and recently in Turkey), accounting for about 30% of the total furnaces in Europe. The enrichment of combustion air with variable amounts of oxygen, in order to provide a higher temperature in the melting furnace and, eventually, increase the production rate, is widely used particularly in Spain. Oxy-fuel fired furnaces show lower energetically values. Due to decreasing pollution levels most of the new furnaces are operated by oxyfuel. Reasons for oxygen enhanced combustion are:

• The nitrogen is eliminated from the combustion process
• Exhaust gas volume reduced by 75%
• Less heat loss through the exhaust system
• Less batch loss by the lower exhaust velocity, less dust emission
• Flue gas channel area can be reduced
• Higher flame temperature
• Better heat transfer by the 3 atom molecules taking place in the combustion
• Better heat distribution
• Higher pull rate (up to >200%)
• Oxygen enrichment
• In the combustion process of the hearth furnace, the supplied oxidizing agent can be enriched with oxygen, whereby the flow rate of oxygen as a function of exhaust gas temperature and / or other process parameters are specifically controlled.

Oxyfuel combustion

Air-fuel burners are replaced by oxyfuel burners using pure oxygen. Additionally oxyfuel burners are used to regulate the heat of the flow stream. Converting these furnaces to oxy-fuel results in:

• Substantial capacity increase (up to double)
• Better product quality
• Lower emission values

MESSER-SOLUTION

Examples for the enhancements of capacity and the reductions of emissions in the case of a hearth furnace are shown in the table below. The data is derived from a frit production unit in which recuperative air-fuel burners were replaced by oxyfuel burners of the Oxipyr-type.