A liquid storage tank comprising an outer container wherein the outer container is rigid and has at least one inner container disposed within the outer container. The at least one inner container contains at least one stored liquid which may be refilled from a surface vessel or host facility. The at least one inner container is flexible and pressure balanced while the volume of the outer container remains fixed, and the volume of the at least one inner containers is variable. Disposed on the outer container is a balance assembly containing an isolation valve, a check valve, and a flexible bladder. The balance assembly allows for the hydrostatic pressure to be maintained during chemical dosing and tank raising operations.

A flexible container for the storage of liquid, where a liquid medium to some extent or completely surrounds the flexible container, characterized in that the base of the flexible container proceeds in the manner of a cone to a discharge point at which liquid can be discharged from the flexible container.

A flexible container for the storage of liquid, where a liquid medium to some extent or completely surrounds the flexible container, characterized in that the base of the flexible container proceeds in the manner of a cone to a discharge point at which liquid can be discharged from the flexible container.

An oil storage, loading and offloading system includes a submerged oil storage tank with multiple vertically placed flexible containers. The system directly connects to the topsides of an offshore oil production platform above water to assist oil loading and offloading operations. During loading, oil is pumped in and stored inside flexible containers, which are expanded to displace equivalent amount of water out of the oil storage tank; during offloading, oil is pumped out from flexible containers and the reduced volume of each contracted container is then filled in by the equivalent amount of water from the surroundings There is no physical contact between water and oil. The submerged tank on-bottom weight has a limited variation during the loading and offloading operations. This disclosed system can be utilized for fixed offshore platforms, especially for shallow water marginal field developments, and for deepwater floating platforms such as SPAR and semi-submersible (SEMI) structures.

An oil storage, loading and offloading system includes a submerged oil storage tank with multiple vertically placed flexible containers. The system directly connects to the topsides of an offshore oil production platform above water to assist oil loading and offloading operations. During loading, oil is pumped in and stored inside flexible containers, which are expanded to displace equivalent amount of water out of the oil storage tank; during offloading, oil is pumped out from flexible containers and the reduced volume of each contracted container is then filled in by the equivalent amount of water from the surroundings There is no physical contact between water and oil. The submerged tank on-bottom weight has a limited variation during the loading and offloading operations. This disclosed system can be utilized for fixed offshore platforms, especially for shallow water marginal field developments, and for deepwater floating platforms such as SPAR and semi-submersible (SEMI) structures.

Embodiments described generally relate to methods for assembling a modular floating production storage and offloading (FPSO) vessel. A cargo module section, a forward module, and a rear module can be positioned and aligned with each other such that the cargo module section can be disposed between the forward module and the rear module. A plurality of connectors can be coupled together to secure the forward module and the cargo module section together and another plurality of connectors can be coupled together to secure the rear module and the cargo module section together. A first topside module can be installed onto or over an upper surface of the forward module and can include a flare tower, a turret, hydrocarbon production equipment, or any combination thereof.

The present disclosure relates, according to some embodiments, to subsea fluid storage systems that may automatically and/or continuously compensate for subsea pressure changes. A subsea fluid storage unit with passive pressure compensation may comprise a vessel and a deformable bladder disposed within the vessel. A vessel may comprise a top port, a bottom port, and an internal vessel volume. A deformable bladder may comprise a first end and a second end. A second end may comprise a bladder opening that may be fluidically connected to a top port or a bottom port of a vessel. A deformable bladder may define an internal bladder volume that may be suitable for storage of fluids and/or chemicals.

The present disclosure relates, according to some embodiments, to subsea fluid storage systems that may automatically and/or continuously compensate for subsea pressure changes. A subsea fluid storage unit with passive pressure compensation may comprise a vessel and a deformable bladder disposed within the vessel. A vessel may comprise a top port, a bottom port, and an internal vessel volume. A deformable bladder may comprise a first end and a second end. A second end may comprise a bladder opening that may be fluidically connected to a top port or a bottom port of a vessel. A deformable bladder may define an internal bladder volume that may be suitable for storage of fluids and/or chemicals.

A liquid storage tank comprising an outer container wherein the outer container is rigid and has at least one inner container disposed within the outer container. The at least one inner container contains at least one stored liquid which may be refilled from a surface vessel or host facility. The at least one inner container is flexible and pressure balanced while the volume of the outer container remains fixed, and the volume of the at least one inner containers is variable. Disposed on the outer container is a balance assembly containing an isolation valve, a check valve, and a flexible bladder. The balance assembly allows for the hydrostatic pressure to be maintained during chemical dosing and tank raising operations.

A liquid storage tank comprising an outer container wherein the outer container is rigid and has at least one inner container disposed within the outer container. The at least one inner container contains at least one stored liquid which may be refilled from a surface vessel or host facility. The at least one inner container is flexible and pressure balanced while the volume of the outer container remains fixed, and the volume of the at least one inner containers is variable. Disposed on the outer container is a balance assembly containing an isolation valve, a check valve, and a flexible bladder. The balance assembly allows for the hydrostatic pressure to be maintained during chemical dosing and tank raising operations.