Moisture detecting air cap indicator for expansion tank failure

What is claimed is: 1. A tank comprising: a housing defining a cavity and being formed of a material that corrodes and rusts when in contact with a pressurized fluid; a flexible member positioned within the cavity and connected to the inner wall of the housing, the flexible member separating the cavity into a first portion sealed to contain a pressurized gas and a second portion sealed to contain the pressurized fluid; an indicator connected to the housing in communication with the pressurized gas in the first portion of the cavity, the indicator including a cap and an insert disposed within the cap, the cap being connected to an outer surface of the housing and including a transparent portion, and the insert including a display portion that is a first color and that extends into and is spaced from the transparent portion of the cap to form with the cap an area for receiving the pressurized gas and/or fluid; and a valve at least partially enclosed by the indicator and in communication with the first portion of the cavity and the indicator such that pressurized gas and/or fluid expelled from the valve enters the indicator, the valve including a valve body and a valve stem, wherein the valve body is connected to the insert and a ledge of the insert is configured to actuate the valve stem to allow the pressurized gas to enter the area, wherein when the pressurized gas is free of the pressurized fluid, the first color of the insert is visible, and wherein when the pressurized gas includes a level of pressurized fluid that causes the material of the housing to corrode and rust, the pressurized fluid will be a second color visible through the transparent portion. 2. The tank according to claim 1 , wherein the transparent portion of the cap is formed of a material that optically magnifies the contents of the cap. 3. The tank according to claim 1 , further including a seal between the outer surface of the housing and the indicator that prevents pressurized gas and/or fluid from the cavity from leaking to an environment through the indicator. 4. The tank according to claim 1 , wherein the valve body includes threads on an outer surface thereof and the insert includes threads on an inner surface thereof that mate with the threads on the valve body. 5. The tank according to claim 1 , furthering including a seal between the valve body and the insert. 6. The tank according to claim 1 , further including a seal between the outer surface of the housing, the valve, and the indicator that prevents pressurized gas and/or fluid expelled from the valve from leaking to an environment. 7. The tank according to claim 1 , wherein the indicator has a dome shape. 8. A tank comprising: a housing defining a cavity; a flexible member positioned within the cavity and connected to an inner wall of the housing, the flexible member separating the cavity into a first portion sealed to contain a pressurized gas and a second portion sealed to contain a pressurized fluid; an indicator connected to the housing in communication with the first portion of the cavity, the indicator including a cap sealed to an outer surface of the housing and an insert at least partially disposed within the cap, wherein an area is formed between the cap and insert defining a space for the pressurized gas, and wherein a first color is visible through the indicator when the pressurized gas has a level of moisture below a predetermined level, and a second color is visible through the indicator when the pressurized gas has a level of moisture at or above the pressurized level; and a valve at least partially enclosed by the indicator and in communication with the first portion of the cavity and the indicator such that pressurized gas expelled from the valve enters the indicator, wherein the valve includes a valve body and a valve stem, wherein the valve body is connected to the insert and a ledge of the insert is configured to actuate the valve stem to allow the pressurized gas to enter the area. 9. The tank according to claim 8 , wherein the valve body includes threads on an outer surface thereof and the insert includes threads on an inner surface thereof that mate with the threads on the valve body. 10. The tank according to claim 8 , furthering including a seal between the valve body and the insert. 11. The tank according to claim 8 , wherein at least a portion of the cap is formed of a material that optically magnifies the contents of the cap. 12. The tank according to claim 8 , further including a seal between the outer surface of the housing, the valve, and the indicator that prevents pressurized gas expelled from the valve from leaking to an environment. 13. A tank comprising: a housing defining a cavity and being formed of a material that corrodes and rusts when in contact with a pressurized fluid; a liner positioned within the cavity and connected to an inner wall of the housing; a flexible diaphragm positioned within the cavity and connected to the inner wall of the housing, the diaphragm separating the cavity into a first portion sealed to contain a pressurized gas between the inner wall and the flexible diaphragm, and a second portion sealed to contain the pressurized fluid between the liner and the flexible diaphragm; a valve extending through the housing into the first portion of the cavity; and an indicator connected to the housing and surrounding the valve, the indicator being in communication with the pressurized gas in the first portion of the cavity via the valve and the indicator including a cap and an insert disposed within the cap, the cap being connected to an outer surface of the housing and including a transparent portion, and the insert including a display portion that is a first color and that extends into and is spaced from the transparent portion of the cap to form a space for receiving the pressurized gas and/or fluid, wherein the valve includes a valve body and a valve stem, wherein the valve body is connected to the insert and a ledge of the insert is configured to actuate the valve stem to allow the pressurized gas to enter the area, wherein when the pressurized gas is free of the pressurized fluid, the first color of the insert is visible though the transparent portion of the cap, and wherein when the pressurized gas includes a level of pressurized fluid that causes the material of the housing to corrode and rust, the pressurized gas and pressurized fluid will enter the space and be a second color visible through the transparent portion of the cap. 14. The tank according to claim 13 , wherein the valve body includes threads on an outer surface thereof and the insert includes threads on an inner surface thereof that mate with the threads on the valve body. 15. The tank according to claim 13 , furthering including a seal between the valve body and the insert.