Effective discharge of exhaust from submerged combustion melters and methods

1 . A submerged combustion manufacturing system comprising: a submerged combustion melter (SCM) equipped with one or more submerged combustion (SC) burners, the SCM having a length (L) and a width (W), a centerline (C), a midpoint (M), a sidewall structure having a north side (N) and a south side (S), the sidewall structure connecting a ceiling and a floor of the SCM, and one or more exhaust passages through the ceiling, the exhaust passages having an aggregate hydraulic diameter; the one or more submerged combustion burners configured to discharge combustion products under a level of material being melted in the SCM and create turbulent conditions in substantially all of the material being melted as well as ejected portions of melted material; and a liquid-cooled exhaust structure fluidly connecting the one or more exhaust passages with an exhaust stack, the a liquid-cooled exhaust structure: defining a liquid-cooled exhaust chamber having a first interior surface, the liquid-cooled exhaust chamber having a cross-sectional area greater than that of the exhaust stack but less than the SCM, the one or more exhaust passages and liquid-cooled exhaust structure configured to maintain temperature and pressure of exhaust materials from the SCM, and exhaust velocity of the exhaust materials from the SCM through the exhaust structure, at values sufficient to prevent the ejected material portions of melted material from being propelled out of the exhaust structure and into the exhaust stack as solidified material, and maintain any molten materials contacting the first interior surface molten so that it flows back down the first interior surface back into the SCM. 2 - 3 . (canceled) 4 . The system of claim 1 comprising a feed inlet in a feed end of the sidewall structure, a molten product outlet in an exit end of the sidewall structure, wherein the one or more exhaust passages through the ceiling are positioned substantially centrally between the feed and exit ends. 5 . The system of claim 1 wherein the one or more exhaust passages and the liquid-cooled exhaust chamber have a cross-sectional area configured to produce exhaust velocity of 25 ft./min. or less through the one or more exhaust passages and liquid-cooled exhaust chamber. 6 . The system of claim 1 wherein the submerged combustion burners are configured to discharge combustion products primarily non-laterally under the level of material being melted in the SCM. 7 . The system of claim 1 wherein the submerged combustion burners are configured to discharge combustion products primarily vertically under the level of material being melted in the SCM. 8 . The system of claim 1 wherein the sidewall structure comprises a feed end wall, an exit end wall, and two side walls, with each side wall connected to both the feed end wall and the exit end wall. 9 . The system of claim 1 wherein the liquid-cooled exhaust structure is constructed of metal having service temperature higher than temperature of the exhaust materials. 10 - 11 . (canceled) 12 . The system of claim 1 wherein the liquid-cooled exhaust structure is configured for cooling using a liquid selected from the group consisting of water, organic liquids, inorganic liquids, and combinations thereof. 13 . The system of claim 1 comprising an air inspirator fluidly connecting the liquid-cooled exhaust structure and the exhaust stack. 14 . The system of claim 13 wherein the air inspirator is selected from the group consisting of one or more adjustable panels, and one or more adjustable hoods. 15 . The system of claim 1 wherein the liquid-cooled exhaust structure has a cross-sectional shape selected from the group consisting of rectangular, round, oval, trapezoidal, triangular, U-shaped, quadrangular, hexagonal, octagonal, and parabolic. 16 . A submerged combustion manufacturing system comprising: a submerged combustion melter (SCM) equipped with one or more submerged combustion (SC) burners, the SCM having a length (L) and a width (W), a centerline (C), a midpoint (M), a sidewall structure having a north side (N) and a south side (S), the sidewall structure connecting a ceiling and a floor of the SCM, and one or more exhaust passages through the sidewall structure, the one or more exhaust passages having an aggregate hydraulic diameter; the one or more submerged combustion burners configured to discharge combustion products under a level of material being melted in the SCM and create turbulent conditions in substantially all of the material being melted as well as ejected portions of melted material; and a liquid-cooled exhaust structure fluidly connecting the one or more exhaust passages with an exhaust stack, the liquid-cooled exhaust structure: defining a liquid-cooled exhaust chamber having a first interior surface, the liquid-cooled exhaust chamber having a cross-sectional area greater than that of the exhaust stack but less than the SCM, the one or more exhaust passages and liquid-cooled exhaust structure configured to maintain temperature and pressure of exhaust materials from the SCM, and exhaust velocity of the exhaust materials from the SCM through the exhaust structure, at values sufficient to prevent the ejected material portions of melted material from being propelled out of the exhaust structure and into the exhaust stack as solidified material, and maintain any molten materials contacting the first interior surface molten so that it flows back down the first interior surface back into the SCM. 17 . (canceled) 18 . The system of claim 16 wherein the one or more exhaust passages and the liquid-cooled exhaust chamber have a cross-sectional area configured to produce exhaust velocity of 25 ft./min. or less through the liquid-cooled exhaust chamber. 19 - 34 . (canceled) 35 . A submerged combustion manufacturing system comprising: a submerged combustion melter (SCM) equipped with one or more submerged combustion (SC) burners, the SCM having a length (L) and a width (W), a centerline (C), a midpoint (M), a sidewall structure having a north side (N) and a south side (S), the sidewall structure connecting a ceiling and a floor of the SCM, and one or more exhaust passages through the ceiling, the exhaust passages having an aggregate hydraulic diameter; the one or more submerged combustion burners configured to discharge combustion products under a level of material being melted in the SCM and create turbulent conditions in substantially all of the material being melted as well as ejected portions of melted material; and an exhaust structure fluidly connecting the one or more exhaust passages with an exhaust stack, the exhaust structure comprising: a liquid-cooled exhaust structure of height H 1 fluidly connected to the exhaust passage, the liquid-cooled exhaust structure defining a liquid-cooled exhaust chamber having a first interior surface, the liquid-cooled exhaust chamber having a cross-sectional area greater than that of the exhaust stack but less than the SCM, the one or more exhaust passages and liquid-cooled exhaust structure configured to maintain temperature and pressure of exhaust materials from the SCM, and exhaust velocity of the exhaust materials from the SCM through the exhaust structure, at values sufficient to prevent the ejected material portions of melted material from being propelled out of the exhaust structure and into the exhaust stack as solidified material, and maintain any molten materials contacting the first interior surface molten so that it flows back down the first interior surface back into the SCM