Upwardly angled burners in glass furnaces

What is claimed is: 1. A glassmelting method comprising: (A) providing glassmaking material in a furnace comprising a rear wall and a front wall which face each other, and two side walls which face each other, the four walls defining an enclosure, a crown over the enclosure and in contact with the four walls, at least one opening through which material can be fed into the enclosure to be melted, at least one opening in the front wall through which molten glass can leave the enclosure, and a layer of molten glass within the enclosure and contacting the interiors of the four walls, wherein the distance from the top surface of the molten glass to the junction of the side walls and the crown is 3.5 to 5.5 feet; and (B) feeding gaseous oxidant having an oxygen content of at least 21 vol. % and fuel to a burner which is situated in an opening in a side wall that is between 35% and 65% of the distance from the top surface of the molten glass to the top of the side wall, and which is oriented to produce a flame extending into the enclosure toward the crown that lies along a line which forms an angle of greater than zero degrees up to 15 degrees relative to a horizontal plane passing through the burner, and combusting in said burner said gaseous oxidant and said fuel that are fed to said burner, wherein the visible portions of the flame do not contact the opposing side wall, do not contact the molten glass, and do not contact the crown, wherein said combustion forms a layer at or near the top surface of the flame, which contains uncombusted fuel, partially combusted fuel, and byproducts of partial combustion of the fuel, and in which the total amount of uncombusted fuel, partially combusted fuel, and byproducts of partial combustion of the fuel is higher than the amount thereof in the regions of the flame below that layer. 2. A glassmelting method according to claim 1 wherein the velocity of the gaseous oxidant in the burner is 70 to 350 feet per second. 3. A glassmeltimg method according to claim 1 wherein said combustion is carried out at a burner that feeds said gaseous oxidant and said fuel at different elevations above the molten glass. 4. A glassmelting method according to claim 1 wherein said combustion is carried out at a burner that feeds said fuel and a portion of said gaseous oxidant at an elevation above where the stoichiometric balance of the gaseous oxidant is fed. 5. A glassmelting method according to claim 1 wherein said combustion is carried out at a burner that includes an upper rank of orifices each of which comprises two concentric passages and fuel is fed through one of the concentric passages and a portion of said gaseous oxidant is fed through another of the concentric passages, and a lower rank of orifices through which is fed gaseous oxidant.