Fining molten material using reduced pressure

The invention claimed is: 1 . A multi-stage vacuum housing, comprising: a first melt receipt tank configured to receive molten material, where the first melt receipt tank is disposed in a first vacuum chamber; a first refining channel configured to flow the molten material from the first melt receipt tank through a second vacuum chamber; a second melt receipt tank configured to receive the molten material from the first refining channel, where the second melt receipt tank is disposed in a third vacuum chamber; and a second refining channel configured to flow the molten material from the second melt receipt tank and through a fourth vacuum chamber, wherein the first vacuum chamber is pressure sealed from the first melt receipt tank and the second melt receipt tank, and the second vacuum chamber is pressure sealed from the second melt receipt tank. 2 . The multi-stage vacuum housing in claim 1 , wherein the molten material comprises molten glass. 3 . The multi-stage vacuum housing in claim 1 , wherein the molten material flows laminarly into the first melt receipt tank. 4 . The multi-stage vacuum housing in claim 1 , wherein at least one of the first melt receipt tank or the second melt receipt tank is heated. 5 . The multi-stage vacuum housing in claim 1 , wherein at least one of the first refining channel or the second refining channel has an open top. 6 . The multi-stage vacuum housing in claim 1 , wherein at least one of the first refining channel or the second refining channel includes a refractory material. 7 . The multi-stage vacuum housing in claim 1 , wherein an air gap is disposed between at least one of the first refining channel and a second housing or the second refining channel and a fourth housing. 8 . The multi-stage vacuum housing in claim 1 , wherein at least one of the first vacuum chamber or the second vacuum chamber includes a heat source. 9 . The multi-stage vacuum housing in claim 8 , wherein the heat source includes at least one of an induction heater or an electric resistive heater. 10 . The multi-stage vacuum housing in claim 1 , wherein at least one of the first melt receipt tank, the first vacuum chamber, the second melt receipt tank, or the second vacuum chamber is at a pressure less than atmospheric pressure. 11 . The multi-stage vacuum housing in claim 1 , wherein pressure in the first vacuum chamber is different than pressure in the second vacuum chamber. 12 . The multi-stage vacuum housing in claim 1 , wherein at least one of the first refining channel or the second refining channel is configured for thin layer melting. 13 . The multi-stage vacuum housing in claim 1 , further comprising: at least one skimmer disposed between molten material in at least one of the first refining channel or the second refining channel and a second housing or a fourth housing. 14 . The multi-stage vacuum housing in claim 1 , further comprising: at least one vacuum source coupled to the multi-stage vacuum housing. 15 . A glass fining system, comprising: the multi-stage vacuum housing of claim 1 ; and a melter coupled to the multi-stage vacuum housing. 16 . The glass fining system in claim 15 , wherein the glass melter includes a submerged combustion melter. 17 . The multi-stage vacuum housing in claim 1 , further comprising: a first skimmer configured to contact the molten material in the first refining channel to pressure seal the first vacuum chamber from the second vacuum chamber; and a second skimmer configured to contact the molten material in the first refining channel to pressure seal the second vacuum chamber from the third vacuum chamber. 18 . The multi-stage vacuum housing in claim 17 , further comprising: a third skimmer configured to contact the molten material in the second refining channel to pressure seal the third vacuum chamber from the fourth vacuum chamber. 19 . The multi-stage vacuum housing in claim 17 , further comprising: a first wall configured to pressure seal the first vacuum chamber from the second vacuum chamber in combination with the first skimmer; and a second wall configured to pressure seal the second vacuum chamber from the third vacuum chamber in combination with the second skimmer. 20 . A multi-stage vacuum housing, comprising: a first refining channel configured to flow molten material through a first vacuum chamber; a second refining channel configured to flow the molten material through a second vacuum chamber; a first skimmer configured to contact the molten material in the first refining channel; a second skimmer downstream of the first skimmer and configured to contact the molten material in the first refining channel, wherein the first and second skimmers pressure seal the first vacuum chamber; a third skimmer downstream of the second skimmer and configured to contact the molten material in the second refining channel; and a fourth skimmer downstream of the third skimmer and configured to contact the molten material in the second refining channel, wherein the third and fourth skimmers pressure seal the second vacuum chamber. 21 . The multi-stage vacuum housing in claim 20 , further comprising: a first wall configured to pressure seal the first vacuum chamber in combination with the first skimmer; a second wall configured to pressure seal the first vacuum chamber in combination with the second skimmer; a third wall configured to pressure seal the second vacuum chamber in combination with the third skimmer; and a fourth wall configured to pressure seal the second vacuum chamber in combination with the foruth skimmer.