A deep ocean gas storage system for storing compressed gas, the system comprising an inflexible thin walled storage vessel anchored to the sea floor having an axis located in water substantially perpendicular to and on a sea floor below sea level, a gas intake for admitting and discharging compresse
A deep ocean gas storage system for storing compressed gas, the system comprising an inflexible thin walled storage vessel anchored to the sea floor having an axis located in water substantially perpendicular to and on a sea floor below sea level, a gas intake for admitting and discharging compressed natural gas to and from the vessel; a water port for admitting and discharging water to the vessel using hydrostatic pressure to discharge compressed gas from the vessel at a substantially constant discharge pressure as the volume of the gas in the storage vessel decreases when water content of the vessel increases; a conduit fluidly connected with the water port oriented substantially parallel to the axis having a discharge opening above the level of sea water in the vessel; and a valve disposed at the gas intake to the vessel for controlling compressed gas admission and discharge.
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What is claimed is: 1. A deep water gas storage system for storing a compressed gas, the system comprising: an inflexible thin walled vessel positioned under deep water and having a first end at a first water depth and a second end at a second water depth less than the first water depth, the vessel
What is claimed is: 1. A deep water gas storage system for storing a compressed gas, the system comprising: an inflexible thin walled vessel positioned under deep water and having a first end at a first water depth and a second end at a second water depth less than the first water depth, the vessel adapted to store the compressed gas such that: a pressure of the compressed gas proximate the first end is substantially equal to a hydrostatic pressure of the water at the first water depth; a pressure of the compressed gas proximate the second end is less than a hydrostatic pressure of the water at the second water depth; and a pressure of the compressed gas between the first end and the second end and at a third water depth, wherein the third water depth is between the first water depth and the second water depth, is a linear function of a density of the compressed gas and independent of a hydrostatic pressure of the water at the third water depth; wherein the compressed gas within the vessel has a compression ratio of at least 5; a compressed gas intake coupled to the vessel for admitting and discharging the compressed gas to and from the vessel; a water port in the vessel, the water port positioned at a water depth greater than that of the compressed gas intake and adapted to freely admit water to and discharge water from the vessel; a valve coupled between the compressed gas intake and the vessel, the valve operable to control compressed gas admission to and discharge from the vessel; and a tie-in to a marine riser for offloading of the compressed gas to a ship, wherein the tie-in to the marine riser comprises: a gas conduit for engaging a tie-back connector in the marine riser connected to a riser base in the sea floor; and a shut off valve disposed in the gas conduit for starting or stopping the compressed gas offloading to the ship. 2. The system of claim 1, wherein the vessel has at least an additional wall disposed adjacent the inflexible thin wall forming at least a two wall vessel. 3. The system of claim 1, wherein the vessel is anchored to the water bed under water. 4. The system of claim 1 wherein deep water is a water depth greater than 1000 feet. 5. The system of claim 1, wherein the compressed gas is compressed gas from a well or a gas that has been compressed using a compressor. 6. The system of claim 1, further comprising a floating membrane disposed within the vessel, the membrane separating the compressed gas and the water. 7. The system of claim 6, wherein the floating membrane is an immiscible fluid. 8. The system of claim 1, wherein the vessel is anchored to the sea floor by a solid ballast. 9. The system of claim 1, wherein the vessel is relocatable from a first water bed location to a second water bed location. 10. The system of claim 1, wherein a plurality of vessels are anchored to the water bed and connected to a manifold that engages to a supply line and an export line. 11. The system of claim 10, wherein the supply line and the export line are a single line. 12. The system of claim 1, wherein the vessel is adaptable for well testing. 13. The system of claim 1, wherein the valve is an electro hydraulic valve. 14. The system of claim 1, further comprising a control/monitoring system for monitoring the compressed gas in the vessel and for controlling the flow of the gas to and from the vessel. 15. The system of claim 1, further comprising a conduit fluidly connected with the water port, wherein the conduit is oriented parallel to the axis for emitting and discharging water. 16. The system of claim 1, further comprising a connection to a pipeline for injection into a gas pipeline transmission system. 17. A deep water gas storage system for storing a compressed gas, the system comprising: an inflexible thin walled vessel positioned under deep water and having a first end at a first water depth, the vessel adapted to store the compressed gas such that: a pressure of the compressed gas proximate the first end is substantially equal to a hydrostatic pressure of the water at the first water depth; and a pressure of the compressed gas proximate a second water, wherein the second water depth is less than the first water depth, is a linear function of a density of the compressed gas and independent of a hydrostatic pressure of the water at the second water depth; wherein the compressed gas within the vessel has a compression ratio of at least 5; a compressed gas intake coupled to the vessel for admitting and discharging the compressed gas to and from the vessel; a water port in the vessel, the water port positioned at a water depth greater than that of the compressed gas intake and enabling free flow of water into and out of the vessel; a valve coupled between the compressed gas intake and the vessel, the valve operable to control compressed gas admission to and discharge from the vessel; and an inflatable, compressible bag for gas containment disposed within the vessel, the bag floating on water and providing a separation between the compressed gas and the water. 18. A deep water gas storage system for storing a compressed gas, the system comprising: an inflexible thin walled vessel positioned under deep water and having a first end at a first water depth and a second end at a second water depth less than the first water depth, the vessel adapted to store the compressed gas such that: a pressure of the compressed gas proximate the first end is substantially equal to a hydrostatic pressure of the water at the first water depth; a pressure of the compressed gas proximate the second end is less than a hydrostatic pressure of the water at the second water depth; and a pressure of the compressed gas between the first end and the second end and at a third water depth, wherein the third water depth is between the first water depth and the second water depth, is a linear function of a density of the compressed gas and independent of a hydrostatic pressure of the water at the third water depth; a compressed gas intake coupled to the vessel for admitting and discharging the compressed gas to and from the vessel; a water port in the vessel, the water port positioned at a water depth greater than that of the compressed gas intake and adapted to freely admit water to and discharge water from the vessel.
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이 특허에 인용된 특허 (10)
Webster, Brian Y.; Collins, Christopher D.; Moody, Jr., James A., Compressed gas utilization system and method with sub-sea gas storage.
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