Cast cullet-based layer on wall panel for a melter

The invention claimed is: 1 . A liquid-cooled melting furnace panel for a melting furnace that contains molten glass during use, the melting furnace panel comprising a metal wall and a cast sacrificial layer in direct contact with a surface of the metal wall that faces the molten glass during use, wherein, prior to installation of the furnace panel in the melting furnace, an entire thickness of the cast sacrificial layer has a composition that includes glass cullet particles held together by a sodium silicate binder, said composition being meltable in molten glass. 2 . The melting furnace panel of claim 1 , wherein the metal wall partly defines an interior space with fluid passages through which a coolant can flow such that the coolant flows along a surface of the metal wall opposite the surface that faces the molten glass during use. 3 . The melting furnace panel of claim 1 , wherein the wall is one of a first outer wall and a second outer wall partly defining an interior space between the first and second outer walls, the panel further comprising baffles extending between the first and second outer walls in the interior space, each baffle including projections received by openings in the first and second outer walls, the projections being connected to the first and second outer walls from outside the panel. 4 . The melting furnace panel of claim 1 , further comprising an outer edge extending about a perimeter of the wall so that the outer edge extends about the cast sacrificial layer. 5 . The melting furnace panel of claim 1 , further comprising an outer edge extending about a perimeter of the panel, the outer edge including a flange configured for attachment to an adjacent melting furnace panel. 6 . The melting furnace panel of claim 1 , further comprising one or more protrusions extending from the wall so that each of the one or more protrusions is embedded in the cast sacrificial layer. 7 . The melting furnace panel of claim 1 , wherein the cast sacrificial layer is a solid continuous layer covering the entire surface of the wall. 8 . The melting furnace panel of claim 1 , wherein the composition of the cast sacrificial layer, excluding water, is: 91.25 to 99.25 weight % glass; and 0.75 to 8.75 weight % binder. 9 . The melting furnace panel of claim 1 , wherein the cast sacrificial layer provides an insulating layer that reduces heat flux through the panel. 10 . The melting furnace panel of claim 1 , wherein the cast sacrificial layer provides a thermal barrier between the molten glass and the wall of the panel that reduces a thermal gradient in the wall. 11 . The melting furnace panel of claim 1 , wherein the cullet particles have a mean particle size in a range from 5 microns to 100 microns. 12 . A liquid-cooled melting furnace panel for a melting furnace, comprising: a first wall; a metal wall spaced apart from the first wall; an interior space defined between the first wall and the metal wall with fluid passages in the interior space through which a coolant entering the interior space flows along a first face of the metal wall; and a cast sacrificial layer carried by and in direct contact with a second face of the metal wall opposite the first face of the metal wall and within a perimeter of the metal wall, wherein, prior to installation of the furnace panel in the melting furnace, an entire thickness of the cast sacrificial layer has a composition consisting essentially of a material that is meltable in molten glass. 13 . The liquid-cooled melting furnace panel of claim 12 , wherein the composition includes glass fused with sodium silicate.