Composite tank

What is claimed is: 1. A tank comprising: a polymeric upper dome having a neck with a through passage; a polymeric lower dome having a neck with a through passage; a polymeric shell having a first end connected to the upper dome and a second end connected to the lower dome; a connection attached to each of the upper and lower domes in the through passages of the necks, the connections being the same as one another, each connection having a through passage with threads along an inner surface thereof for connection of attachments; a connector attached to each of the connections, each connector being sealed to an end of the neck of the respective upper or lower dome by a first seal and being sealed to another area of the neck by a second seal; and wherein the upper dome further comprises a lead-in that engages the first end of the polymeric shell and the lower dome further comprises a lead-in that engages the second end of polymeric shell, each of the lead-ins comprising a first portion, a second portion proximate the first portion, and a third portion proximate the second portion, the first portion oriented parallel to an outer surface of the polymeric shell, the second portion oriented radially inward from the polymeric shell at a first angle compared to the first portion to create a gap between the second portion and the polymeric shell, and the third portion oriented radially inward from the polymeric shell at a second angle compared to the first portion to create a gap between the third portion and the polymeric shell, wherein the second angle is greater than the first angle such that the gap between the third portion and the polymeric shell is greater than the gap between the second portion and the polymeric shell. 2. The tank according to claim 1 , wherein the second seal is held in a groove between a surface of the connector and a surface of the neck of the upper dome. 3. The tank according to claim 2 , wherein the first seal is dependent on a torque applied to the connector, and the second seal is not dependent on the torque. 4. The tank according to claim 2 , wherein the connector attached to the upper dome is a connector having a first end proximate the end of the neck, a second end opposite thereto, and an annular groove proximate the second end for receiving the second seal. 5. The tank according to claim 4 , wherein the second seal is a primary sealing component and the first seal is a secondary sealing component. 6. The tank according to claim 1 , further including a flexible diaphragm disposed in a cavity formed by the upper dome, lower dome, and shell, the diaphragm being connected to an inner wall of the polymeric shell. 7. The tank according to claim 1 , wherein each neck includes a radially inwardly extending annular rib serving as a seat for the first seal that is held between the annular rib of the neck and an outwardly extending flange of the connector and the first seal and the second seal are separated by the threads along the inner surface of the connection. 8. A tank assembly comprising: a tank including: a polymeric body defining a cavity and having an upper neck and a lower neck each defining a through passage in communication with the cavity, wherein the polymeric body includes a polymeric upper dome having the upper neck, a polymeric lower dome having the lower neck, and a polymeric shell having a first end connected to the upper dome and a second end connected to the lower dome, an upper connector being sealed to an end of the upper neck by a first seal and being sealed to another area of the upper neck by a second seal; a lower connector being sealed to an end of the lower neck by a first seal and being sealed to another area of the lower neck by a second seal, the lower connector having an inlet portion attached to the lower neck and a conduit portion extending from the inlet portion, the inlet portion and conduit portion each having a through passage fluidly connected with one another to direct flow from the cavity through the conduit portion; and a support stand supporting the tank, wherein the upper dome further comprises a lead-in that engages the first end of the polymeric shell and the lower dome further comprises a lead-in that engages the second end of polymeric shell, each of the lead-ins comprising a first portion, a second portion proximate the first portion, and a third portion proximate the second portion, the first portion oriented parallel to an outer surface of the polymeric shell, the second portion oriented radially inward from the polymeric shell at a first angle compared to the first portion to create a gap between the second portion and the polymeric shell, and the third portion oriented radially inward from the polymeric shell at a second angle compared to the first portion to create a gap between the third portion and the polymeric shell, wherein the second angle is greater than the first angle such that the gap between the third portion and the polymeric shell is greater than the gap between the second portion and the polymeric shell. 9. The tank assembly according to claim 8 , wherein the second seal is a primary sealing component and the first seal is a secondary sealing component. 10. The tank assembly according to claim 8 , wherein the second seal is held in a groove between a surface of the respective upper or lower connector and a surface of the respective upper neck or lower neck. 11. The tank according to claim 10 , wherein the first seal is dependent on a torque applied to the respective upper or lower connector, and the second seal is not dependent on the torque. 12. The tank assembly according to claim 8 , wherein the tank further includes a cap configured to attach to the upper or lower connectors, the cap comprising a leveling ring configured to indicate an orientation of the tank. 13. The tank assembly of claim 8 , further comprising: an upper and lower connection attached to the polymeric body in the through passages of the respective upper and lower neck, each of the upper and lower connections having a through passage with threads along an inner surface thereof, wherein each of the upper neck and the lower neck include a radially inwardly extending annular rib that serves as a seat for the first seal that is held between the annular rib or the respective upper or lower neck and an outwardly extending flange of the respective upper or lower connector and the first seal and the second seal are separated by the threads along the inner surface of the upper and lower connection. 14. A tank comprising: a polymeric upper dome; a polymeric lower dome; a polymeric shell having a first end connected to the upper dome and a second end connected to the lower dome and forming with the upper and lower dome a cavity; a flexible diaphragm connected to an inner wall of the polymeric shell in the cavity; and a fiberwinding layer around an outer surface of the polymeric upper dome, polymeric lower dome, and polymeric shell, wherein the upper dome further comprises a lead-in that engages the first end of the polymeric shell and the lower dome further comprises a lead-in that engages the second end of polymeric shell, each of the lead-ins comprising a first portion, a second portion proximate the first portion, and a third portion proximate the second portion, the first portion oriented parallel to an outer surface of the polymeric shell, the second portion oriented radially inward from the polymeric shell at a first angle compared to the first portion to create a gap between the second portion and the polymeric shell, and the third portion oriented radially inward from the po