Glass manufacturing apparatus and related processes

The invention claimed is: 1. A process for manufacturing soda-lime-silica glass containing 60-75 wt. % SiO 2 , including: (a) providing a molten glass precursor composition comprising less than 40 wt % silica (SiO 2 ) in a supply vessel in communication with an inlet of a lower end of a first flow channel, wherein the molten glass precursor composition at the inlet of the first flow channel has a temperature in the range of 740 degrees Celsius to 1500 degrees Celsius; (b) heating the molten glass precursor composition to a first temperature above 1550 degrees Celsius as the molten glass precursor composition flows up through the first flow channel; (c) removing gas bubbles from the molten glass precursor composition; (d) flowing the molten glass precursor composition from an outlet at an upper end of the first flow channel into an inlet at an upper end of a second flow channel via a passageway connecting the first and second flow channels, wherein the first and second flow channels comprise concentric outer and inner flow channels, respectively, with the first flow channel concentrically surrounding at least a portion of the second flow channel; (e) introducing one or more solid glass-forming materials into the molten glass precursor composition via an inlet to the passageway such that excess heat is transferred from the molten glass precursor composition to the one or more solid glass-forming materials to dissolve the one or more solid glass-forming materials into the molten glass precursor composition and form a final glass composition having a second temperature lower than the first temperature and having a different chemical composition than that of the molten glass precursor composition, wherein the one or more solid glass-forming materials contains greater than 60 wt. % silica (SiO2) including 10-80 wt % sand and 20-90 wt % cullet; and (f) flowing the final glass composition down through the second flow channel such that heat is transferred by conduction through a common wall radially separating the first and second flow channels from each other and countercurrent heat exchange occurs between the glass compositions flowing in opposite directions through the first and second flow channels, wherein the final glass composition is cooled in said steps (e) and (f) to a temperature in the range of 1000 degrees Celsius to 1250 degrees Celsius. 2. The process set forth in claim 1 including establishing a pressure differential between an inlet and an outlet of the first flow channel such that the glass precursor composition flows through the first flow channel from the inlet to the outlet thereof, using a vacuum pump and evacuation system in communication with the passageway. 3. The process set forth in claim 1 wherein the final glass composition is cooled in steps (e) and (f) to a suitable temperature for subsequent processing steps. 4. The process set forth in claim 1 wherein the common wall is composed of one or more of the following materials: molybdenum, tungsten, platinum, or iridium, alloys of molybdenum, tungsten, platinum, or iridium, or carbides of tungsten and silicon. 5. The process set forth in claim 1 wherein the process is run under reducing or inert conditions.