Submerged combustion melting exhaust systems

The invention claimed is: 1. A submerged combustion melting system, comprising: a submerged combustion melting furnace, including: a tank including a floor, a roof, a perimeter wall extending between the floor and the roof, and an interior, submerged combustion melting burners extending through the tank to melt glass feedstock into molten glass in the interior of the tank, a batch inlet at an upstream end of the tank, a molten glass outlet at a downstream end of the tank, and an exhaust outlet; and an exhaust system in fluid communication with the interior of the tank, and including: a fluid-cooled flue in fluid communication with the exhaust outlet, and including fluid-cooled perimeter panels, a refractory-lined hood in fluid communication with, and extending to a hood outlet from, the fluid-cooled flue, and including refractory-lined walls and a dilution air duct inlet, wherein the refractory-lined hood includes a vertical portion configured to extend upwardly from the fluid-cooled flue and a horizontal portion configured to extend away from the vertical portion and to the hood outlet, a dilution air input duct having an outlet in fluid communication with the dilution air duct inlet of the refractory-lined hood, and non-cooled, non-refractory outlet conduit extending away from the refractory-lined hood. 2. The system of claim 1 , wherein the fluid-cooled flue extends upwardly from the roof of the tank along a first central longitudinal vertical axis, a central longitudinal oblique axis extending from the first central longitudinal vertical axis, and a second central longitudinal vertical axis extending from the central longitudinal oblique axis. 3. The system of claim 1 , wherein the refractory-lined hood also includes the vertical portion downstream of and extending upwardly from the fluid-cooled flue, and the horizontal portion downstream of and extending away from the vertical portion to the hood outlet. 4. The system of claim 1 , wherein the dilution air duct inlet extends through at least one of the refractory-lined walls of the horizontal portion. 5. The system of claim 1 , wherein the hood outlet is in an upper wall of the horizontal portion and vertically opposite a condensate cleanout port in a lower wall of the horizontal portion. 6. The system of claim 1 , wherein the fluid-cooled perimeter panels include a lower vertical segment in fluid communication with the exhaust outlet of the roof of the tank and with a lower central longitudinal axis, an upper vertical segment with an upper central longitudinal axis and a flue outlet, and an intermediate oblique segment extending between the lower and upper vertical segments and having an intermediate central longitudinal axis, wherein an offset distance between the lower and upper central longitudinal axes is greater than or equal to a transit section dimension of the fluid-cooled flue. 7. The system of claim 1 , wherein the fluid-cooled flue extends upwardly from the roof of the tank along a central longitudinal axis and the refractory-lined hood extends upwardly from the fluid-cooled flue along the central longitudinal axis. 8. The system of claim 1 , wherein the refractory-lined walls of the refractory-lined hood include refractory-lined perimeter walls, refractory-lined obliquely angled walls extending upwardly and inwardly from the refractory-lined perimeter walls, and a conduit extending upwardly from the refractory-lined obliquely angled walls. 9. The system of claim 8 , wherein the dilution air duct inlet extends transverselythrough the conduit. 10. The system of claim 1 , wherein the non-cooled, non-refractory outlet conduit includes an inverted bight having a bight inlet in fluid communication with the hood outlet of the refractory-lined hood and also having a bight outlet, a J-shaped section extending downwardly from the bight outlet and having an inlet at an upper end and also having an outlet at a lower end, and a horizontal section in fluid communication with the outlet of the J-shaped section and extending away therefrom along a longitudinal axis below a level of the dilution air duct inlet of the refractory-lined hood and above the fluid-cooled flue. 11. The system of claim 1 , wherein the fluid-cooled perimeter panels have a lower non-cooled baffle extending upwardly at an oblique angle and intersecting a central longitudinal axis, and an upper non-cooled baffle extending upwardly at another oblique angle and intersecting the central longitudinal axis. 12. The system of claim 1 , wherein the dilution air duct inlet extends through refractory material of at least one of the refractory-lined walls. 13. A submerged combustion melting system, comprising: a submerged combustion melting furnace, including: a tank including a floor, a roof, a perimeter wall extending between the floor and the roof, and an interior, submerged combustion melting burners extending through the tank to melt glass feedstock into molten glass in the interior of the tank, a batch inlet at an upstream end of the tank, a molten glass outlet at a downstream end of the tank, and an exhaust outlet in the roof of the tank; and an exhaust system in fluid communication with the interior of the tank, and including: a fluid-cooled flue in fluid communication with the exhaust outlet, and having fluid-cooled perimeter panels including: a lower vertical segment in fluid communication with the exhaust outlet of the roof of the tank of the submerged combustion melting furnace and having a lower central longitudinal vertical axis, an upper vertical segment having an upper central longitudinal vertical axis and a flue outlet, and an intermediate oblique segment extending between the lower and upper vertical segments and having an intermediate central longitudinal oblique axis, wherein an offset distance between the lower and upper central longitudinal axes is greater than or equal to a transit section dimension of the fluid-cooled flue, a refractory-lined hood in fluid communication with the fluid-cooled flue, and including a vertical portion downstream of and extending upwardly from the fluid-cooled flue along the upper central longitudinal vertical axis and a horizontal portion downstream of and extending away from the vertical portion to a hood outlet, and including refractory-lined walls and a dilution air duct inlet extending through at least one of the perimeter walls of the horizontal portion, and a dilution air input duct having an outlet in fluid communication with the dilution air duct inlet of the refractory-lined hood, wherein the horizontal portion includes a lower wall with a protrusion that protrudes into a downstream horizontal exhaust path within the horizontal portion and has an excurvate upper surface to streamline flow of exhaust gas through the refractory-lined hood to prevent gas recirculation and formation of condensate piles in the refractory-lined hood. 14. The system of claim 13 , wherein the exhaust system further comprises: non-cooled, non-refractory outlet conduit extending away from the refractory-lined hood at the hood outlet, which is in an upper wall of the horizontal portion and vertically opposite a condensate cleanout port in a lower wall of the horizontal portion. 15. The system of claim 13 , wherein the fluid-cooled flue is liquid-cooled and the fluid-cooled perimeter panels are liquid-cooled perimeter panels. 16. A submerged combustion melting system, comprising: a submerged combustion melting furnace, including: a tank including a floor, a roof, and a perimeter wall extending