![]() ![]() The choice of tables for professional diving use is generally made by the organisation employing the divers. It is not possible to discriminate between "right" and "wrong" options, but it is considered correct to say that the risk of developing DCS is greater for the longer exposures and less for the shorter exposures. ĭepending on the table or computer chosen the range of no-decompression limits at a given depth on air can vary considerably, for example for 100 fsw (30 msw) the no stop limit varies from 25 to 8 minutes. The algorithm can be used to generate decompression schedules for a particular dive profile, decompression tables for more general use, or be implemented in dive computer software.ĭuring the 1980s the US recreational diving community tended to move away from the US Navy tables to a range of tables published by other organisations, including several of the diver certification agencies (BSAC, NAUI, PADI). There is a wide range of choice.ĭecompression algorithms Inert gas tension in the tissue compartments during a decompression dive with gas switching to accelerate decompression, as predicted by a decompression algorithmįurther information: Bühlmann decompression algorithm, Thalmann algorithm, Reduced gradient bubble model, and Varying Permeability ModelĪ decompression algorithm is used to calculate the decompression stops needed for a particular dive profile to reduce the risk of decompression sickness occurring after surfacing at the end of a dive. Planning and monitoring decompression Įquipment for planning and monitoring decompression includes decompression tables, depth gauges, timers, surface computer software, and personal decompression computers. ĭivers with long decompression obligations may be decompressed inside gas filled hyperbaric chambers in the water or at the surface, and in the extreme case, saturation divers are only decompressed at the end of a project, contract, or tour of duty that may be several weeks long. Surface-supplied divers will have the composition of the breathing gas controlled at the gas panel. Cave divers who can only return by a single route, can leave decompression gas cylinders attached to the guideline ("stage" or "drop cylinders") at the points where they will be used. This decompression gas is often carried by scuba divers in side-slung cylinders. The high partial pressure of oxygen in such decompression mixes produces the effect known as the oxygen window. Other equipment is used to mark the underwater position of the diver, as a position reference in low visibility or currents, or to assist the diver's ascent and control the depth.ĭecompression may be shortened ("accelerated") by breathing an oxygen-rich "decompression gas" such as a nitrox blend or pure oxygen. Some equipment is specifically for these functions, both during planning before the dive and during the dive. ![]() There are several categories of decompression equipment used to help divers decompress, which is the process required to allow divers to return to the surface safely after spending time underwater at higher ambient pressures.ĭecompression obligation for a given dive profile must be calculated and monitored to ensure that the risk of decompression sickness is controlled. ![]() Equipment used by divers to facilitate decompressionĭive computer, Decompression practice, Diving bell, Diving chamber ![]()
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