Submerged combustion melting processes for producing glass and similar materials, and systems for carrying out such processes
First Claim
1. A system comprising:
- melter vessel comprising a floor, a ceiling, and a wall connecting the floor and ceiling at a perimeter of the floor and ceiling, the floor, ceiling, and wall defining a melting zone, the wall comprising a feed end wall, a first portion of an exit end wall, and a second portion of the exit end wall, the feed end wall and the first portion of the exit end wall forming angles “
α
” and
“
β
”
, respectively, with respect to the floor, angles α and
β
may be the same or different and each ranges from about 45 degrees to about 75 degrees, the melter vessel comprising a feed opening in the feed end wall or ceiling and the first and second portions of the exit end wall comprising a melter exit structure for discharging molten material formed in the melting zone, the melter vessel comprising at least one fluid-cooled refractory panel in its floor, ceiling, and the feed end wall, and one or more submerged combustion burners positioned to direct combustion products substantially perpendicularly into the melting zone under a level of molten material in the melting zone and form a turbulent molten material having a turbulent molten material surface facing the ceiling, the at least one fluid-cooled refractory panel configured to be modified during operation of the melter vessel to have a frozen or highly viscous material layer, or combination thereof, formed on at least a portion of a surface of the panel facing the molten material,the melter vessel further comprising a one or more thermocouples in the refractory of the at least one fluid-cooled refractory panel or in the frozen or highly viscous material layer of the modified panel for sensing a temperature of the modified panel; and
a controller configured to control the melter vessel using the temperature of the modified panel to achieve a desired melt temperature of at least a portion of the turbulent molten material in the melting zone.
1 Assignment
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Accused Products
Abstract
Processes of controlling submerged combustion melters, and systems for carrying out the methods. One process includes feeding vitrifiable material into a melter vessel, the melter vessel including a fluid-cooled refractory panel in its floor, ceiling, and/or sidewall, and heating the vitrifiable material with a burner directing combustion products into the melting zone under a level of the molten material in the zone. Burners impart turbulence to the molten material in the melting zone. The fluid-cooled refractory panel is cooled, forming a modified panel having a frozen or highly viscous material layer on a surface of the panel facing the molten material, and a sensor senses temperature of the modified panel using a protected thermocouple positioned in the modified panel shielded from direct contact with turbulent molten material. Processes include controlling the melter using the temperature of the modified panel. Other processes and systems are presented.
104 Citations
11 Claims
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1. A system comprising:
-
melter vessel comprising a floor, a ceiling, and a wall connecting the floor and ceiling at a perimeter of the floor and ceiling, the floor, ceiling, and wall defining a melting zone, the wall comprising a feed end wall, a first portion of an exit end wall, and a second portion of the exit end wall, the feed end wall and the first portion of the exit end wall forming angles “
α
” and
“
β
”
, respectively, with respect to the floor, angles α and
β
may be the same or different and each ranges from about 45 degrees to about 75 degrees, the melter vessel comprising a feed opening in the feed end wall or ceiling and the first and second portions of the exit end wall comprising a melter exit structure for discharging molten material formed in the melting zone, the melter vessel comprising at least one fluid-cooled refractory panel in its floor, ceiling, and the feed end wall, and one or more submerged combustion burners positioned to direct combustion products substantially perpendicularly into the melting zone under a level of molten material in the melting zone and form a turbulent molten material having a turbulent molten material surface facing the ceiling, the at least one fluid-cooled refractory panel configured to be modified during operation of the melter vessel to have a frozen or highly viscous material layer, or combination thereof, formed on at least a portion of a surface of the panel facing the molten material,the melter vessel further comprising a one or more thermocouples in the refractory of the at least one fluid-cooled refractory panel or in the frozen or highly viscous material layer of the modified panel for sensing a temperature of the modified panel; and a controller configured to control the melter vessel using the temperature of the modified panel to achieve a desired melt temperature of at least a portion of the turbulent molten material in the melting zone. - View Dependent Claims (2, 3, 4, 5, 6, 7)
-
-
8. A system comprising:
-
melter vessel comprising a floor, a ceiling, and a wall connecting the floor and ceiling at a perimeter of the floor and ceiling, the floor, ceiling, and wall defining a melting zone, the wall comprising a feed end wall and an exit end wall, the melter vessel comprising a fluid-cooled refractory skimmer extending downwardly substantially in line with a downstream wall of a stack, a lower distal end of the skimmer forming a submerged throat with the exit end wall, the feed end wall and the exit end wall forming angles “
α
” and
“
β
”
, respectively, with respect to the floor, angles α and
β
may be the same or different and each ranges from about 45 degrees to about 75 degrees, the melter vessel comprising a feed opening in the feed end wall or ceiling and the exit end wall comprising a melter exit structure for discharging molten material formed in the melting zone, the melter vessel comprising at least one fluid-cooled refractory panel in its floor, ceiling, and/or wall, and one or more submerged combustion burners, at least one of which is positioned to direct combustion products substantially perpendicularly into the melting zone under a level of molten material in the melting zone and form a turbulent molten material having a turbulent molten material surface facing the ceiling, the at least one fluid-cooled refractory panel configured to be modified during operation of the melter vessel to have a frozen or highly viscous material layer, or combination thereof, formed on at least a portion of a surface of the panel facing the molten material,the melter vessel further comprising two or more sensors for sensing two or more temperatures selected from the group consisting of; a) temperature of the turbulent molten material surface facing the ceiling, b) inlet and outlet temperatures of a coolant fluid passing through the modified panel, c) melter exhaust temperature, d) temperature of the molten material flowing non-turbulently in a forehearth fluidly connected to the melter exit structure, e) temperature of the molten material discharging non-turbulently out of the melter exit structure, and f) combinations or two or more of (a)-(e); with the proviso that two of the two or more sensors for sensing the two or more temperatures are two or more optical temperature measuring devices configured to sense the temperature (a) at two different locations; and a controller configured to control the melter vessel using the two or more temperatures to achieve a desired melt temperature of at least a portion of the turbulent molten material in the melting zone. - View Dependent Claims (9, 10, 11)
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Specification