Gradient fining tank for refining foamy molten glass and a method of using the same

The invention claimed is: 1. A method of refining foamy molten glass, the method comprising: introducing foamy molten glass into an interior chamber of a gradient fining tank defined at least in part by a roof, a floor, and a pair of laterally-spaced sidewalls that connect the roof and the floor, the foamy molten glass being introduced into the interior chamber through an inlet of the gradient fining tank that communicates with an upstream portion of the interior chamber defined by an extended shallow portion of the tank, and, wherein, upon introduction into the upstream portion of the interior chamber, the foamy molten glass intermixes with a molten glass bath that is maintained within the interior chamber of the gradient fining tank; directing the molten glass bath to flow along the extended shallow portion of the gradient fining tank from an inlet end of the extended shallow portion to an outlet end of the extended shallow portion, the extended shallow portion including an entry section of the floor, and the molten glass bath separating into a higher-density phase and a lower-density phase that rests on top of the higher-density phase within the extended shallow portion of the gradient fining tank; directing the molten glass bath to flow into a downstream portion of the interior chamber defined by a deep holding portion of the gradient fining tank, the deep holding portion having an inlet end, which communicates with the outlet end of the extended shallow portion, and an outlet end, the deep holding portion further including a transition section of the floor that extends downwardly and outwardly from the entry section of the floor of the extended shallow portion to an exit section of the floor such that a depth of the downstream portion of the interior chamber at the outlet end of the deep holding portion is greater than a depth of the upstream portion of the interior chamber at the outlet end of the extended shallow portion; directing the molten glass bath to flow along the deep holding portion from the inlet end of the deep holding portion to the outlet end of the deep holding portion, the higher-density phase of the molten glass bath sinking and collecting as refined molten glass within the downstream portion of the interior chamber above the exit section of the floor at the outlet end of the deep holding portion of the tank; and removing refined molten glass from the interior chamber of the gradient fining tank through an outlet of the gradient fining tank that communicates with the downstream portion of the interior chamber, the outlet of the gradient fining tank being downwardly displaced from the inlet of the gradient fining tank. 2. The method set forth in claim 1 , wherein the higher-density phase of the molten glass bath has a density that ranges from above 1.0 gm/cm 3 to 1.5 gm/cm 3 and the lower-density phase of the molten glass bath has a density that ranges from 0.7 gm/cm 3 to 1.0 gm/cm 3 , within the extended shallow portion of the gradient fining tank. 3. The method set forth in claim 1 , wherein the entry section of the floor has a flow surface, and the transition section of the floor has a flow surface that slopes downwardly from the flow surface of the entry section of the floor at an angle that ranges from 30° to 75° from a horizontal imaginary plane extending from a downstream end of the flow surface of the entry section. 4. The method set forth in claim 3 , wherein the flow surface of the transition section slopes downwardly to a flow surface of the exit section such that a depth of the downstream portion of the interior chamber progressively increases along the transition section, and wherein the flow surface of the exit section of the floor extends outwardly from the flow surface of the transition section of the floor at an angle that ranges from 115° to 160°. 5. The method set forth in claim 3 , wherein the flow surface of the transition section of the floor is an upper flow surface that slopes downwardly to an intermediate step flow surface of the transition section, the intermediate step flow surface extending outwardly from the upper flow surface at an angle that ranges from 115° to 160°, and wherein the transition section further includes a lower flow surface that slopes downwardly from the intermediate step flow surface at an angle that ranges from 30° to 75° from a horizontal imaginary plane extending from a downstream end of the intermediate step flow surface. 6. The method set forth in claim 5 , wherein the lower flow surface of the transition section of the floor slopes downwardly to a flow surface of the exit section of the floor, and wherein the flow surface of the exit section of the floor extends outwardly from the lower flow surface of the transition section of the floor at an angle that ranges from 115° to 160°. 7. The method set forth in claim 1 , wherein the exit section of the floor has a flow surface, and the outlet of the gradient fining tank is open to the flow surface of the exit section. 8. The method set forth in claim 1 , wherein the depth of the upstream portion of the interior chamber at the outlet end of the extended shallow portion of the gradient fining tank ranges from 0.2 m to 1.0 m, and wherein the depth of the downstream portion of the interior chamber at the outlet end of the deep holding portion of the gradient fining tank ranges from 1.0 m to 10 m. 9. The method set forth in claim 1 , wherein the foamy molten glass that is introduced into the gradient fining tank has a density that ranges from 0.9 gm/cm 3 to 1.3 gm/cm 3 , and wherein the refined molten glass that is removed from the gradient fining tank has a density that ranges from 2.3 gm/cm 3 to 2.5 gm/cm 3 . 10. The method set forth in claim 1 , wherein one or more skimmers extend downwardly from the roof of the gradient fining tank and are submerged into the molten glass bath. 11. The method set forth in claim 10 , wherein the one or more skimmers includes a skimmer that extends downwardly from the roof of the gradient fining tank so that a free end of the skimmer is submerged into the molten glass bath above the transition section of the floor, the free end of the skimmer cooperating with the transition section of the floor and the sidewalls to define a restricted passage that impedes the admittance of the lower-density phase of the molten glass bath downstream of the skimmer. 12. The method set forth in claim 1 , wherein the gradient fining tank includes one or more heating devices that transfer heat to the molten glass bath. 13. The method set forth in claim 12 , wherein the one or more heating devices includes one or more impingement burners mounted in the roof of the gradient fining tank within the extended shallow portion of the tank, the one or more impingement burners directing flames downwardly into contact with a top surface of the molten glass bath. 14. The method set forth in claim 12 , wherein the one or more heating devices includes one or more impingement burners mounted in one or both of the sidewalls above the molten glass bath within the extended shallow portion of the tank, the one or more impingement burners directing flames downwardly into contact with a top surface of the molten glass bath. 15. A method of refining foamy molten glass, the method comprising: providing a gradient fining tank that includes a roof, a floor, and a pair of sidewalls that connect the roof and the floor, the roof, the floor, and the sidewalls at least partially defining an interior chamber that holds a molten glass bath, the gradient fining tank having an extended shallow portion that defines an upstream portion of