Furnace and process for controlling the oxidative state of molten materials

摘要

A method useful with oxy-fuel combustion and in a furnace which contains molten material, wherein either substoichiometric or superstoichiometric combustion and low velocity injection of fuel and primary and secondary oxidant in an oxy-fuel burner are carried out in an orientation which forms either a reducing or oxidizing atmosphere proximate the molten surface.

主权项

1. A method for changing the oxidation state of transition metal ion species in a furnace, wherein
(i) the furnace is configured for continuous operation and comprises a charging end, a discharge end, a melting zone adjacent the charging end and a fining zone in fluid contact with the discharge end; (ii) glass forming ingredients are introduced into the melting zone, travel along a path from the melting zone to the fining zone and are withdrawn as molten glass from the fining zone; and (iii) the furnace has a combustion energy requirement in a combustion space over both the melting zone and the fining zone; the method comprising: (A) injecting into the combustion space at a point above the molten glass and downstream of the batch blanket, fuel and primary oxidant in a flat-flame configuration and a substoichiometric ratio not less than about 50 percent of stoichiometric, the primary oxidant being a fluid comprising at least 21 mole percent oxygen, both of the fuel and the primary oxidant being injected into the combustion space at a velocity of about 1000 feet per second or less; (B) combusting the fuel and the primary oxidant within the combustion space to produce heat and combustion reaction products including unburned fuel; (C) injecting secondary oxidant into the combustion space in a flat jet configuration below the injection point of the fuel and the primary oxidant such that the secondary oxidant is injected between the molten glass and the injection point of the fuel and the primary oxidant, the secondary oxidant being a fluid comprising at least about 21 mole percent oxygen, at a velocity of about 2000 standard feet per second or less; (D) establishing an oxygen-rich gas layer proximate the molten glass, the oxygen-rich gas layer having a higher oxygen concentration than the molten glass; (E) causing oxygen transport from the oxygen-rich layer into the molten glass, thereby driving a redox reaction of at least one transition metal ion species in the molten glass to oxidize the transition metal ion species; and (F) combusting secondary oxidant with unburned fuel to provide additional heat and combustion reaction products within the furnace.