The diving environment is the
natural or
artificial surroundings in which a
dive is done. It is usually
underwater, but
professional diving is sometimes done in other liquids.
Underwater diving is the human practice of voluntarily descending below the surface of the water to interact with the surroundings, for various
recreational or
occupational reasons, but the concept of diving also legally extends to immersion in other liquids, and exposure to other pressurised environments.[1] Some of the more common diving environments are listed and defined here.
The diving environment is limited by accessibility and risk, but includes water and occasionally other liquids. Most underwater diving is done in the shallower coastal parts of the oceans, and inland bodies of fresh water, including lakes, dams, quarries, rivers, springs, flooded caves, reservoirs, tanks, swimming pools, and canals, but may also be done in large bore ducting and sewers, power station cooling systems, cargo and
ballast tanks of ships, and liquid-filled industrial equipment. The environment may affect equipment configuration: for instance, freshwater is less dense than saltwater, so less added weight is needed to achieve diver neutral buoyancy in freshwater dives.[2] Water temperature,
visibility and movement also affect the diver and the dive plan.[3] Diving in liquids other than water may present special problems due to density, viscosity and chemical compatibility of diving equipment, as well as possible environmental hazards to the diving team.[4]
Benign conditions, sometimes also referred to as confined water, are environments of low risk, where it is extremely unlikely or impossible for the diver to get lost or entrapped, or be exposed to hazards other than the basic underwater environment. These conditions are suitable for initial training in the critical survival skills, and include swimming pools, training tanks, aquarium tanks and some shallow and protected shoreline areas.[5]
Open water is unrestricted water such as a sea, lake or
flooded quarry, where the diver has unobstructed direct vertical access to the surface of the water in contact with the atmosphere.[6]Open-water diving implies that if a problem arises, the diver can directly ascend vertically to the atmosphere to breathe air.[7]Wall diving is done along a near vertical face.
Blue-water diving is done in mid-water where the bottom is out of sight of the diver and there may be no fixed visual reference.[8]Black-water diving is mid-water diving at night, particularly on a moonless night.[9][10]
An overhead or penetration diving environment is where the diver enters a space from which there is no direct, purely vertical ascent to the safety of breathable atmosphere at the surface.
Cave diving,
wreck diving,
ice diving and diving inside or under other natural or artificial underwater structures or enclosures are examples. The restriction on direct ascent increases the risk of diving under an overhead, and this is usually addressed by adaptations of procedures and use of equipment such as redundant breathing gas sources and guide lines to indicate the route to the exit.[11][4][3]
The common term for a place at which one may dive is a dive site. As a general rule, professional diving is done where the work needs to be done, and recreational diving is done where conditions are suitable. There are many recorded and publicised
recreational dive sites which are known for their convenience, points of interest, and frequently favourable conditions.
Diver training facilities for both professional and recreational divers generally use a small range of dive sites which are familiar and convenient, and where conditions are predictable and the environmental risk is relatively low.[15]
Confined water – A diving environment that is enclosed and bounded sufficiently for safe training
Open water – Unrestricted water with direct vertical access to the surface in contact with the atmosphere
Hyperbaric treatment and transport environments
Physiologically and legally a compression in a
diving chamber is considered a dive. Various options for
hypebaric transport and
treatment exist, each with its own characteristics, applications and operational procedures.
Closed bell – Hyperbaric chamber for transporting divers vertically through the water
Hyperbaric stretcher – Portable pressure vessel to transport a person under pressure.
Recompression chamber – A hyperbaric chamber used to treat divers suffering from decompression illness
Environments by confinement
Confinement can influence diver safety and the ability of the diver to perform the required task. Some types of confinement improve safety by limiting the ability of the diver to move into higher risk areas, others limit the ability of the diver to maneuver or to escape to a place of safety in an emergency.
Confined space – Space with limited entry and egress and not suitable for human inhabitants
Confined water – A diving environment that is enclosed and bounded sufficiently for safe training. The Queensland government define confined water for recreational diving purposes as "Water which offers pool-like conditions, good visibility, and water which is shallow enough so that all divers can stand up with their heads well clear of the water".[16] Other definitions do not require such shallow depth, but may have a depth restriction.
Open water – Unrestricted water with direct vertical access to the surface in contact with the atmosphere
Blue-water diving – Underwater diving in oceanic mid-water where the bottom is not visible and is out of diving range
Intake – Opening or structure through which a fluid is admitted into a space or machine
Penstock – Intake structure that controls water flow to turbines or sewerage systems
Overhang – Rocky part protruding from a cliff – A topographical feature which is open to one side, but obstructed overhead, and deep enough for a diver to be under the overhang.
Restriction – Space through which it is possible to pass with some difficulty – Space through which it is possible for a diver to pass with some difficulty. Section of a cave which is difficult to pass through due to lack of space. A minor restriction is too small for two divers to swim through together, a major restriction requires the diver to remove equipment to fit through.[17]
Sewerage – Infrastructure that conveys sewage or surface runoff using sewers
Swim-through – Short underwater tunnel with adequate clearance and obvious exit – Arch, or short, clear tunnel that has sufficient space to allow a diver to swim through and where the light of the opening at the far end is visible through the hole.
Under ships – usually for inspection, maintenance and repair, or incidentally, when diving from one. In some cases the gap between the ship and the bottom or the jetty or dock can be quite small.
Visibility in the diving medium directly affects diver safety and the ability to complete useful tasks. In some cases this can be mitigated by technology to improve visibility, but often the task procedures must be modified to suit the capacity of the diver, and the diver must have training and equipment bto deal with emergencies under more difficult circumstances.
Blue-water diving – Underwater diving in oceanic mid-water where the bottom is not visible and is out of diving range
Besides the
hazards associated with the underwater environment itself, there are a considerable variety of hazard types and risk levels to which a diver may be exposed due to the circumstances of the dive task. Many of these are normally only encountered by
professional specialists, and the means of
reducing risk to an acceptable level may be complex and expensive.
Benign water – Diving environment with very low risk
Bomb disposal – Activity to dispose of and render safe explosive munitions and other materials
Clearance diving – Military diving work involving underwater demolition and work with explosives
Currents – Water flow in a locally consistent direction
Delta P environments – Hazards associated with underwater diving – Environments where a pressure difference causes flow. Usually refers to cases where the flow is likely to entrain and pull the diver into an enclosed space or moving machinery.
Penstock – Intake structure that controls water flow to turbines or sewerage systems
Sluice gate – A movable gate allowing water to flow under it when opened
Hazmat diving – Underwater diving in a known hazardous materials environment
Contaminated water – Water containing high levels of hazardous materials
Nuclear diving – Diving in an environment where there is a risk of exposure to radioactive materials
Sewer diving – Diving for maintenance work in sewers
Lifting bag – Airtight bag used for underwater buoyant lifting when filled with air
Live-boat diving, also known as liveboat diving or live-boating – Diving from a boat which is under way (not moored) – Diving from a vessel which may have propellers or thrusters in gear during the dive.
Penetration diving, also known as Overhead diving – Diving under a physical barrier to a direct vertical ascent to the surface
Underwater demolition – The deliberate destruction or neutralization of man-made or natural underwater obstacles
Environments by temperature
The temperature of the diving environment can influence the equipment used by the diver, and the time the diver can be exposed to the environment without excessive risk.
Diving in hot water – Water that is hot enough to require measures to keep the diver cool.
Diving in warm water – Water at temperatures where no thermal protection is necessary.
Diving in cold water – Water where heat loss is a critical hazard. Arbitrarily specified at below 10 °C for some training standards
The recreational diving depth limit set by the EN 14153-2 / ISO 24801-2 level 2 "
Autonomous Diver " standard is 20 metres (66 ft).[18] The recommended depth limit for more extensively trained recreational divers ranges from 30 metres (98 ft) for PADI divers,[19] (this is the depth at which nitrogen narcosis symptoms generally begin to be noticeable in adults), to 40 metres (130 ft) specified by
Recreational Scuba Training Council,[19] 50 metres (160 ft) for divers of the
British Sub-Aqua Club and
Sub-Aqua Association breathing air,[20] and 60 metres (200 ft) for teams of 2 to 3 French Level 3 recreational divers, breathing air.[21]
For technical divers, the recommended maximum depths are greater on the understanding that they will use less narcotic gas mixtures. 100 metres (330 ft) is the maximum depth authorised for divers who have completed Trimix Diver certification with
IANTD[22] or Advanced Trimix Diver certification with
TDI.[23] 332 metres (1,089 ft) is the world record depth on scuba (2014).[24] Commercial divers using saturation techniques and heliox breathing gases routinely exceed 100 metres (330 ft), but they are also limited by physiological constraints.
Comex Hydra 8 experimental dives reached a record open water depth of 534 metres (1,752 ft) in 1988.[25] Atmospheric pressure diving suits are mainly constrained by the technology of the articulation seals, and a US Navy diver has dived to 610 metres (2,000 ft) in one.[26][27]
From an oceanographic viewpoint:
Shallow water, defined as between the surf-zone and the coast
Intermediate water, defined as between the surf zone and wave base (where the waves just interact with the bottom and no more, usually about 80 m water depth with 10 second swells). The seafloor beneath intermediate water is termed the shoreface and is the zone where the seafloor slows down the swells by friction, so that the surf ends up being lower than it otherwise would be.
Deep water, defined as deeper than wave base: i.e. too deep for waves to interact with the seafloor.
Recreational divers will usually dive in the shallow to intermediate marine environment. Technical and commercial divers may venture into the deep water environment.
Contaminated water – Water containing high levels of hazardous materials
Sewage – Wastewater that is produced by a community of people
Drilling fluid, also known as drilling mud – Aid for drilling boreholes into the ground
Petroleum, also known as crude oil – Naturally occurring flammable liquid
Fuel oil – Petroleum product burned to generate motive power or heat
References
^Diving Regulations 2009. Pretoria: Government Printer. Archived from
the original on 4 November 2016. Retrieved 3 November 2016 – via Southern African Legal Information Institute.
^
abJablonski, Jarrod (2006). "9: Diving environments". Doing It Right: The Fundamentals of Better Diving. High Springs, Florida: Global Underwater Explorers. pp. 137–.
ISBN978-0-9713267-0-5.
^
abBarsky, Steven (2007). Diving in High-Risk Environments (4th ed.). Ventura, California: Hammerhead Press.
ISBN978-0-9674305-7-7.
^"Section 2". Australian Standard AS2815.3-1992, Training and certification of occupational divers, Part 3: Air diving to 50m (2 ed.). Homebush, New South Wales: Standards Australia. 1992. p. 9.
ISBN978-0-7262-7631-6.
^
Haddock, Stephen H. D.; Heine, John N. (2005).
Scientific Blue-Water Diving(PDF). California Sea Grant College Program. Archived from
the original(PDF) on 25 March 2016. Retrieved 23 November 2018.
^Bartick, Mike (Spring 2017).
"Blackwater Diving". Alert Diver. Divers Alert Network. Retrieved 7 November 2019.
^"IANTD Trimix Diver (OC, SCR, CCR)". IANTD Technical Programs. International Association of Nitrox and Technical Divers. Archived from
the original on 5 November 2016. Retrieved 6 November 2016.