Combustion gas permeable condensation trays for water heating systems

What is claimed is: 1. A condensation tray comprising: one or more peaks extending toward a top side of the condensation tray, each of the one or more peaks comprising a top portion and a first overhang extending from the top portion; one or more valleys extending toward a bottom side of the condensation tray, each of the one or more valleys forming a condensate collector disposed on the top side of the condensation tray; one or more gas apertures disposed between the first overhang and a corresponding valley of the one or more valleys, wherein the one or more gas apertures are positioned on an underhang corresponding to the first overhang. 2. The condensation tray of claim 1 , wherein each of the one or more peaks further comprises a second overhang extending from the top portion. 3. The condensation tray of claim 1 , wherein the top portion of each of the one or more peaks comprises an upper ridge configured to divert condensate. 4. The condensation tray of claim 1 , wherein a gap is defined on the bottom side of the condensation tray between adjacent valleys of the one or more valleys, the gap being configured to direct combustion gases to the one or more gas apertures. 5. The condensation tray of claim 1 , wherein the top side comprises an insulative coating. 6. The condensation tray of claim 1 , wherein the condensation tray comprises an insulative material including plastic or ceramic. 7. The condensation tray of claim 1 , wherein each valley of the one or more valleys is slanted along a length of the condensation tray such that a first depth at a first end of the one or more valleys is deeper than a second depth at a second end of the one or more valleys. 8. A condensation tray comprising: a valley extending at least partially along a length of the condensation tray, a first side of the valley being configured to channel air flow to one or more gas apertures, and a second side of the valley configured to collect condensate; and a peak extending at least partially along the length of the condensation tray and configured to divert the condensate into the valley, wherein the valley is slanted such that a first depth at a first end of the valley is deeper than a second depth at a second end of the valley, and wherein the one or more gas apertures are disposed at a height that is less than a height of the peak. 9. The condensation tray of claim 8 , wherein the peak comprises: a top portion configured to divert the condensate; and an overhang extending from the top portion in a direction at least partially along a width of the condensation tray such that the overhang at least partially covers the valley. 10. The condensation tray of claim 9 , wherein at least one of the one or more gas apertures is disposed on an underhang below the overhang. 11. The condensation tray of claim 8 , wherein: the valley is a first valley, the condensation tray further comprises a second valley, the peak comprises: a top portion configured to divert the condensate; a first overhang extending from the top portion in a first direction at least partially along a width of the condensation tray such that the first overhang at least partially covers the first valley; and a second overhang extending from the top portion in a second direction at least partially along the width of the condensation tray such that the second overhang at least partially covers the second valley, a first gas aperture of the one or more gas apertures is disposed on a first underhang corresponding to the first overhang, and a second gas aperture of the one or more gas apertures is disposed on a second underhang corresponding to the second overhang. 12. The condensation tray of claim 8 , wherein at least the first side of the valley comprises an insulative coating. 13. The condensation tray of claim 8 , wherein the condensation tray comprises an insulative material including plastic or ceramic. 14. A heat exchange system comprising: a primary heat exchanger; a secondary heat exchanger; and a condensation tray positioned between the primary heat exchanger and the secondary heat exchanger and configured to permit combustion gases to pass from a first side of the condensation tray to a second side of the condensation tray, the condensation tray comprising: a plurality of valleys configured to collect condensate on the second side of the condensation tray; one or more peaks, each peak of the one or more peaks configured to divert the condensate into at least one adjacent valley of the plurality of valleys; and one or more gas apertures located between an uppermost point of the one or more peaks and a lowermost point of the plurality of valleys. 15. The heat exchange system of claim 14 , wherein: a first side of the plurality of valleys faces toward the primary heat exchanger, the first side of the plurality of valleys being on the first side of the condensation tray, and a second side of the plurality of valleys faces toward the secondary heat exchanger, the second side of the plurality of valleys being on the second side of the condensation tray. 16. The heat exchange system of claim 14 , wherein: the secondary heat exchanger comprises a plurality of coils arranged in rows, and each peak of the one or more peaks is aligned with a corresponding coil in a lowermost row of the plurality of coils. 17. The heat exchange system of claim 14 , wherein each of the one or more peaks comprises: a top portion configured to divert the condensate from the secondary heat exchanger; and an overhang extending from the top portion such that the overhang at least partially covers a corresponding valley of the plurality of valleys. 18. The heat exchange system of claim 17 , wherein at least one of the one or more gas apertures is disposed on an underhang corresponding to the overhang.