Heated header for subfreezing heat exchanger

The invention claimed is: 1. A heat exchanger header comprising: a first inlet configured to be fluidically connected to a cold air system of an aircraft; a first wall defining a first passageway, wherein the first passageway fluidically connects the first inlet to a first outlet; a second inlet configured to be fluidically connected to a heating fluid source; and a second wall attached to the first wall opposite the first passageway forming a second passageway between the first wall and the second wall; wherein the second passageway that fluidically connects the second inlet to a second outlet, wherein the first inlet, the first passageway, and the first outlet are fluidically isolated from the second inlet, the second passageway, and the second outlet and the first inlet extends through both the first wall and the second wall, and wherein the second inlet extends through only the second wall; wherein the second passageway further comprises at least one partition extending from the first wall to the second wall, wherein the at least one partition creates a channel within the second passageway that is configured to guide a flow of heating fluid from the second inlet to the second outlet when the heat exchanger header is in operation; wherein the second passageway further comprises at least one support extending from the first wall to the second wall; and a third wall attached to the second wall; wherein: the first passageway comprises a plenum adjacent to the first outlet; the third wall is opposite the first wall; and the second wall and the third wall define an insulating air gap between the second wall and the third wall and the insulating air gap comprises one or more fins. 2. The header of claim 1 , further comprising an insulation layer attached to the second wall opposite the first wall. 3. The header of claim 2 , wherein the at least one support comprises one or more fins. 4. The header of claim 3 , wherein the at least one support comprises one or more columns. 5. The header of claim 1 , wherein the first inlet extends through the third wall, and wherein the second inlet extends through the third wall without extending through the first wall. 6. The header of claim 1 , wherein the insulating air gap comprise one or more columns. 7. The header of claim 1 , wherein the second inlet is gravitationally lower that the second outlet. 8. The header of claim 7 , wherein the second channel further comprises a bleeder plug at the highest elevation of the second channel, wherein the bleeder plug is configured to be open to release displaced air from the second channel when the header is in operation. 9. A heat exchanger header comprising: a body with an outer surface and an inner surface, wherein the inner surface defines a plenum and a first outlet fluidically connected with the plenum; a first inlet extending through the body and fluidically connected with the plenum and configured to be fluidically connected to a cold air system on an aircraft; a heating fluid channel formed in the body between the outer surface and the inner surface and extending from a second inlet to a second outlet, wherein the heating fluid channel is fluidically isolated from the plenum and configured to be fluidically connected to a heating fluid source; an insulation layer covering the outer surface of the body; a first wall defining the inner surface of the body, wherein the first wall fluidically isolates the plenum and the heating fluid channel; a second wall attached to the first wall opposite the plenum, wherein the heating fluid channel is between the first wall and the second wall; and a third wall, wherein the third wall defines the outer surface of the body, and wherein the third wall attaches to the second wall opposite the first wall defining an insulating air gap between the second wall and the third wall and the insulating air gap comprises one or more fins; wherein the heating fluid channel comprises at least one partition that defines a path from the second inlet to the second outlet. 10. The header of claim 9 , wherein the second inlet is gravitationally lower that the second outlet. 11. The header of claim 10 , wherein the second channel further comprises a bleeder plug at the highest elevation of the second channel, wherein the bleeder plug is configured to be open to release displaced air from the second channel when the header is in operation. 12. The header of claim 9 , wherein the second inlet is gravitationally lower that the second outlet. 13. The header of claim 12 , wherein the second channel further comprises a bleeder plug at the highest elevation of the second channel, wherein the bleeder plug is configured to be open to release displaced air from the second channel when the header is in operation. 14. A heat exchanger comprising: a core comprising: a first layer comprising at least one passageway that extends in a first direction from an inlet to an outlet; and a second layer contiguous with the first layer comprising at least one passageway extending in a second direction; and a header comprising: a body with an outer surface and an inner surface, wherein the inner surface defines a plenum and a first outlet that fluidically connects the plenum and the inlet of the first layer of the core; a first inlet extending through the body and fluidically connected with the plenum and configured to be fluidically connected to a cold air system of an aircraft; a heating fluid channel formed in the body between the outer surface and the inner surface and extending from a second inlet to a second outlet, wherein the heating fluid channel is fluidically isolated from the plenum and is configured to be fluidically connect to a heating fluid source; and an insulation layer covering the outer surface of the body; wherein the header further comprises: a first wall defining the inner surface of the body, wherein the first wall fluidically isolates the plenum and the heating fluid channel; a second wall attached to the first wall opposite the plenum, wherein the heating fluid channel is between the first wall and the second wall; and a third wall, wherein the third wall defines the outer surface of the body, and wherein the third wall attaches to the second wall opposite the first wall defining an insulating air gap between the second wall and the third wall and the insulating air gap comprises one or more fins. 15. The heat exchanger of claim 14 , wherein the core further comprises a melt pass, wherein the melt pass is fluidically connected to the outlet of the heating fluid channel. 16. The heat exchanger of claim 15 , wherein the second inlet is gravitationally lower that the second outlet. 17. The heat exchanger of claim 16 , wherein the second channel further comprises a bleeder plug at the highest elevation of the second channel, wherein the bleeder plug is configured to be open to release displaced air from the second channel when the header is in operation.