Pressurized potable water system with conformal shape water storage tank

What is claimed is: 1. A water supply system, comprising: a water storage tank having a storage tank fill port and storage tank outlet, the water storage tank configured to store a volume of water at a first pressure; a pressure tank in fluid communication with the water storage tank and periodically fillable with water from the water storage tank by opening of a storage output valve disposed along a storage tank output line connecting the water storage tank to the pressure tank; and an air source fluidly connected to the pressure tank to pressurize the volume of water in the pressure tank to a second pressure greater than the first pressure when the storage output valve is in a closed position; a pressure tank output line fluidly connected to the pressure tank to output water from the pressure tank; and a vent line operably connected to the pressure tank to selectably vent pressure from the pressure tank to allow for refilling of the pressure tank from the water storage tank when the storage output valve is opened; wherein the storage tank outlet is disposed vertically above a pressure tank inlet disposed at an uppermost extent of the pressure tank, such that the volume of water is flowed from the water storage tank to the pressure tank via gravity; wherein the storage tank fill port is disposed at an uppermost tank surface of the water storage tank. 2. The water supply system of claim 1 , wherein the first pressure is substantially ambient pressure. 3. The water supply system of claim 1 , further comprising a level sensor disposed at the pressure tank to detect when a water level in the pressure tank is such that the pressure tank is in need of refill. 4. The water supply system of claim 3 , wherein the level sensor is operably connected to the water storage tank to initiate refill of the pressure tank from the water storage tank when the level sensor detects the pressure tank is in need of refill. 5. The water supply system of claim 1 , wherein the pressure tank is two pressure tanks arranged in parallel and flow through the pressure tank output line is switchable between a first pressure tank of the two pressure tanks and a second pressure tank of the two pressure tanks. 6. The water supply system of claim 5 , further comprising an air valve operably connected to the air source and the two pressure tanks, to selectably admit pressurizing air to the first pressure tank and/or the second pressure tank. 7. The water supply system of claim 5 , wherein the storage output valve is operably connected to the two pressure tanks to selectably admit water into the first pressure tank and/or the second storage tank from the water storage tank. 8. The water supply system of claim 1 , further comprising a pump to urge water from the water storage tank to the pressure tank. 9. The water supply system of claim 1 , wherein the water storage tank is formed from one of a plastic or composite material. 10. The water supply system of claim 1 , wherein the water storage tank is non-spherical and non-cylindrical. 11. The water supply system of claim 1 , wherein the second pressure is in the range of 20-45 pounds per square inch. 12. A method of operating a water supply system, comprising: storing a volume of water at a first pressure at a water storage tank, the water storage tank including a storage tank fill port disposed at an uppermost tank surface of the water storage tank; urging a portion of the volume of water from the water storage tank into a first pressure tank via gravity by opening of a storage output valve disposed along a storage tank output line connecting the water storage tank to the pressure tank, wherein a storage tank outlet is disposed vertically above a pressure tank inlet disposed at an uppermost extent of the pressure tank; urging a volume of air from an air source into the first pressure tank to pressurize the first pressure tank to a second pressure greater than the first pressure when the storage output valve is in a closed position; releasing a flow of water from the first pressure tank via a pressure tank output line fluidly connected to the first pressure tank; and selectably venting pressure from the pressure tank via a vent line operably connected to the pressure tank to allow for refilling of the pressure tank from the water storage tank when the storage output valve is opened. 13. The method of claim 12 , further comprising; detecting a water level at the first pressure tank; and refilling the first pressure tank from the water storage tank based on the detected water level. 14. The method of claim 12 , further comprising: urging a portion of the volume of water from the water storage tank into a second pressure tank arranged in parallel with the first pressure tank; urging a volume of air from the air source into the second pressure tank to pressurize the second pressure tank to a second pressure greater than the first pressure; and selectably releasing a flow of water from the first pressure tank and/or the second pressure tank via a pressure tank output line fluidly connected to the first pressure tank and the second pressure tank. 15. The method of claim 14 , further comprising selectably filling the first pressure tank and/or the second pressure tank from the water storage tank through operation of the storage output valve operably connected to the first pressure tank and the second pressure tank. 16. The method of claim 14 , further comprising selectably pressurizing the first pressure tank and/or the second pressure tank through operation of an air valve operably connected to the air source, first pressure tank and second pressure tank. 17. The method of claim 12 , further comprising urging water from the water storage tank via a pump.