Reduced fouling in staged combustion

What is claimed is: 1. A method of combusting fuel in a furnace, comprising: (A) feeding a first stream of fuel from an outlet in a wall of a furnace into the furnace, feeding a first stream of gaseous oxidant from said outlet into the furnace in an amount that provides less oxygen than the amount of oxygen that is required to completely combust the fuel that is fed in said first stream of fuel, and combusting in the furnace the fuel in the first stream of fuel with the oxygen in the first stream of gaseous oxidant to produce a mixture of combustion products and incompletely combusted fuel; (B) feeding a second stream of fuel into the interior space of a port which is recessed in a wall of the furnace and which opens toward the furnace interior, and feeding a second stream of gaseous oxidant into the interior space of the port in an amount that provides a stoichiometric excess of oxygen relative to the fuel that is fed in the second stream of fuel, and combusting within the interior space of the port the fuel and gaseous oxygen that are fed into the interior space of the port in a flame whose base is within the port, to heat the port to at least 1500 F and to produce a second mixture, comprising products of said combustion and unreacted oxygen from the second stream of oxidant, that is at a temperature of at least 1500 F and fills the interior space of the port; and (C) passing the second mixture into the furnace and combusting incompletely combusted fuel in the furnace with said unreacted oxygen. 2. A method according to claim 1 wherein in step (B) said combusting within the interior space of the port of the fuel and gaseous oxygen that are fed into the interior space of the port in a flame whose base is within the port, heats the port to at least 1500 F, and provides combustion heat release within the port of 30% to 95%, and produces said second mixture, comprising products of said combustion and unreacted oxygen from the second stream of oxidant, that is at a temperature of at least 1500 F and fills the interior space of the port. 3. A method according to claim 1 wherein in step (B) said combusting within the interior space of the port of the fuel and gaseous oxygen that are fed into the interior space of the port in a flame whose base is within the port, heats the port to at least 1500 F, and provides combustion heat release within the port of 80% to 95%, and produces said second mixture, comprising products of said combustion and unreacted oxygen from the second stream of oxidant, that is at a temperature of at least 1500 F and fills the interior space of the port. 4. A method of producing molten glass, comprising: feeding glassmaking ingredients that contain material selected from the group consisting of oxides, hydroxides, silicates and sulfates of sodium and potassium, and mixtures thereof, into a glassmelting furnace, and melting the glassmaking ingredients in the furnace by heat of combustion that is generated by (A) feeding a first stream of fuel from an outlet in a wall of a furnace into the furnace, feeding a first stream of gaseous oxidant from said outlet into the furnace in an amount that provides less oxygen than the amount of oxygen that is required to completely combust the fuel that is fed in said first stream of fuel, and combusting in the furnace the fuel in the first stream of fuel with the oxygen in the first stream of gaseous oxidant to produce a mixture of combustion products and incompletely combusted fuel; (B) feeding a second stream of fuel into the interior space of a port which is recessed in a wall of the furnace and which opens toward the furnace interior, and feeding a second stream of gaseous oxidant into the interior space of the port in an amount that provides a stoichiometric excess of oxygen relative to the fuel that is fed in the second stream of fuel, and combusting within the interior space of the port the fuel and gaseous oxygen that are fed into the interior space of the port in a flame whose base is within the port, to heat the port to at least and to produce a second mixture, comprising products of said combustion and unreacted oxygen from the second stream of oxidant, that is at a temperature of at least 1500 F and fills the interior space of the port; and (C) passing the second mixture into the furnace and combusting incompletely combusted fuel in the furnace with said unreacted oxygen. 5. A method according to claim 4 wherein in step (B) said combusting within the interior space of the port of the fuel and gaseous oxygen that are fed into the interior space of the port in a flame whose base is within the port, heats the port to at least 1500 F, and provides combustion heat release within the port of 30% to 95%, and produces said second mixture, comprising products of said combustion and unreacted oxygen from the second stream of oxidant, that is at a temperature of at least 1500 F and fills the interior space of the port. 6. A method according to claim 4 wherein in step (B) said combusting within the interior space of the port of the fuel and gaseous oxygen that are fed into the interior space of the port in a flame whose base is within the port, heats the port to at least 1500 F, and provides combustion heat release within the port of 80% to 95%, and produces said second mixture, comprising products of said combustion and unreacted oxygen from the second stream of oxidant, that is at a temperature of at least 1500 F and fills the interior space of the port.