A variable-buoyancy pressure vessel system is a type of rigid buoyancy control device for diving systems that retains a constant volume and varies its density by changing the weight (mass) of the contents, either by moving the ambient fluid into and out of a rigid pressure vessel, or by moving a stored liquid between internal and external variable-volume containers. A pressure vessel is used to withstand the hydrostatic pressure of the underwater environment. A variable-buoyancy pressure vessel can have an internal pressure greater or less than ambient pressure, and the pressure difference can vary from positive to negative within the operational depth range, or remain either positive or negative throughout the pressure range, depending on design choices.
Variable buoyancy is a useful characteristic of any mobile underwater system that operates in mid-water without external support.[1] Examples include submarines, submersibles, benthic landers, remotely operated and autonomous underwater vehicles, and underwater divers.
Several applications only need one cycle from positive to negative and back to get down to depth and return to the surface between deployments; others may need tens to hundreds of cycles over several months during a single deployment, or continual but very small adjustments in both directions to maintain a constant depth or neutral buoyancy at changing depths. Several mechanisms are available for this function; some are suitable for multiple cycles between positive and negative buoyancy, and others must be replenished between uses. Their suitability depends on the required characteristics for the specific application.