Underwater_search_and_recovery References

Underwater search and recovery is the process of locating and recovering underwater objects, often by divers,^[1] but also by the use of submersibles, remotely operated vehicles and electronic equipment on surface vessels.

Most underwater search and recovery is done by professional divers as part of commercial marine salvage operations, military operations, emergency services, or law enforcement activities.^[2]^[3]

Minor aspects of search and recovery are also considered within the scope of recreational diving.

Professional search and recovery

The scope of professional search and recovery includes the following applications:^{[
citation needed]}

Marine archeology - search for artifacts of historical interest and importance, and where applicable the recovery of such artifacts for study.
Marine salvage - search for lost material of value and recovery thereof^[4]
Environmental protection - search for environmentally undesirable material and disposal thereof
Forensic S&R - search for and recovery of material relevant to police investigations
Emergency S&R - Search for and recovery of victims of accidents and disasters
Military S&R - Search and recovery related to military operations and material
Scientific S&R - search for objects of scientific interest, recovery of instrumentation and samples

Recreational search and recovery

Search and recovery diving is also frequently undertaken as part of recreational diving, and most diver training organisations have dedicated training courses on the subject. Search and recovery is generally considered a more hazardous speciality diving course.^{[nb 1]}^{[
citation needed]}

Underwater search and recovery used to form a mandatory component of the Advanced Open Water Diver training course for many North American diver training agencies,^{[nb 2]} which, in addition to learning basic search and recover skills, also assisted in teaching students to cope with task loading.^{[
citation needed]}

Although the scale, value and equipment used in commercial and recreational search and recovery are enormously different, the basic premise remains the same in each case.

Search

Diver search

Underwater searches, much like above water searches, are designed around specific search patterns. The most common forms of underwater search patterns are:

Circular search
Jackstay search
Expanding square search
"U" pattern search

The patterns are usually performed by divers in pairs or teams below the water, but they can also be conducted by use of a tender who may be a snorkeller at the surface, a person on a towing boat, or a person located on the shore.^{[
citation needed]}

In simple search operations, the patterns will usually be conducted by the divers simply looking visually for the object. In more sophisticated search operations, underwater magnetometers or hand held sonar may be used.^{[
citation needed]}

Types

Diver training traditionally divides searches into two categories, specific and non-specific.^{[
citation needed]}

A specific search is an attempt to locate a known object in a known area where it was believed to be lost even if the time period is undefined, and the search terminates upon the location of the object. The classic example of this would be an item lost overboard from a boat, which needs to be recovered.

A non-specific search is a search for either a type of object or anything valuable within the dive locale. The discovery of a relevant object does not usually terminate the search until the entire search area has been covered, or the search terminates early for other reasons (air supply, no decompression limits, etc.).

ROV searches

Searches using non-visual methods

A magnetometer is a device that measures magnetic field or magnetic dipole moment. Different types of magnetometers measure the direction, strength, or relative change of a magnetic field at a particular location. Magnetometers can be used as metal detectors: they can detect only magnetic ( ferrous) metals, but can detect such metals at a much greater distance than conventional metal detectors which rely on conductivity; they are capable of detecting large ferrous objects over considerable distances.
Side-scan sonar and multi-beam sonar.
A dragline is a line which is towed ether across the bottom, or at a depth controlled by floats and weights, or hydrodynamically, by paravanes or otter-boards, that is intended to snag the target, indicating its position.
Cadaver dogs

Recovery

Recovery techniques depend upon the type and size of the object, and the depth at which it is found.^[4]^{: Ch. 2}

Smaller objects, such as a coin or camera, can simply be carried up by the diver. Training agencies vary in what they specify to be the maximum apparent weight that can be safely carried up unassisted by a scuba diver, but normally the limit is set around 15 pounds (7 kg), though this will depend on the reserve capacity of the buoyancy compensator,the diver's skill in buoyancy control, and the consequences of a loss of buoyancy control. Anything heavier represents a material change to the diver's buoyancy control, and may put the diver at risk from an uncontrolled ascent if contact with the object is lost during ascent. Professional surface supplied divers working from a bell or stage can carry heavier objects to the stage, but they usually have an option to use a lifting line independent of the diver transport platform.^{[
citation needed]} Similarly, small objects can be recovered directly by lifting by an ROV or crewed submersible with manipulator capability.^[4]^{: Ch. 2}

Medium-sized objects are normally recovered using a lifting bag, and professional divers are trained in lifting bag techniques (it is usually considered specialty training in recreational diving). The most common hazard is entanglement with lines whilst filling the lifting bag from the diver's alternate air source. This risk, when coupled with the possibility of rapid ascent following the freeing of the object from suction caused by it being embedded in the bottom sediment, can seriously compromise the safety of the recovery team if done improperly. Lift bags can be rated up to several tons, but these are beyond the capacity of most recreational divers, and there is no recreational diver training for their use.^{[
citation needed]} A cubic metre of air per tonne at ambient hydrostatic pressure is needed. This is not practicable for cylinders carried by the diver (the most common scuba cylinder size has a total capacity of 80 cubic feet (2.3 m³) at surface pressure). Large lifting bags are normally filled from a low-pressure compressed air hose from the surface, which may be attached directly to the lifting bag.

Significantly larger objects usually require specialised industrial lifting equipment, such as a winch attached to a boat or platform, or specialised equipment to seal and dewater sunken vessels.^[4]

Hazards

Search hazards are determined by the environment of the search area and type of the search. Recovery hazards are related to the object to be recovered, the local environment through which it is to be moved and the method and equipment to be used. There is a large variety possible for all of these, and while some may not be known beforehand, it is usually possible to make a reasonable estimate based on experience with similar situations.

Training and certification

Search and recovery operations are part of the professional diver's working skill set, and will be included in entry level training. Public safety divers' occupation and job description is based on underwater search and recovery, and they may learn more techniques than other professional divers.

Search and recovery is a class of underwater work, and is out of scope for general recreational diving. Nevertheless, many recreational divers choose to learn the skills and have access to limited training and equipment through recreational diver training providers, and consequently there is also certification available.

References

^ PADI (2003). PADI Search & Recovery manual. ASIN: B000YPP84E. United States: PADI.
^ US Navy (2006). US Navy Diving Manual, 6th revision. United States: US Naval Sea Systems Command. Retrieved 2008-06-15.
^ NOAA Diving Manual, 4th Edition CD-ROM prepared and distributed by the National Technical Information Service (NTIS)in partnership with NOAA and Best Publishing Company
^ ^a ^b ^c ^d ^e U.S. Navy Salvage Manual (PDF). Vol. 4: Deep Ocean Operations S0300-A6-MAN-040 0910-LP-252-3200. United States. Navy Department. Supervisor of Salvage and Diving. 1 August 1993. This article incorporates text from this source, which is in the public domain.

Footnotes

^ For example, PADI regards search and recovery as one of only three speciality which require the student to already be certified as an Advanced Open Water Diver before commencing (the other two being ice diving and cave diving, both of which are considered highly hazardous). [1]
^ For example, it was a mandatory part of the PADI Advanced Open Water Diver course until 1989

[padi-1] PADI (2003). PADI Search & Recovery manual. ASIN: B000YPP84E. United States: PADI.

[usn-2] US Navy (2006). US Navy Diving Manual, 6th revision. United States: US Naval Sea Systems Command. Retrieved 2008-06-15.

[NOAA_4th_Ed-3] NOAA Diving Manual, 4th Edition CD-ROM prepared and distributed by the National Technical Information Service (NTIS)in partnership with NOAA and Best Publishing Company

[Salvage_manual_040-4] U.S. Navy Salvage Manual (PDF). Vol. 4: Deep Ocean Operations S0300-A6-MAN-040 0910-LP-252-3200. United States. Navy Department. Supervisor of Salvage and Diving. 1 August 1993. This article incorporates text from this source, which is in the public domain.

[5] For example, PADI regards search and recovery as one of only three speciality which require the student to already be certified as an Advanced Open Water Diver before commencing (the other two being ice diving and cave diving, both of which are considered highly hazardous). [1]

[6] For example, it was a mandatory part of the PADI Advanced Open Water Diver course until 1989

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[2]

[3]

[4]

[nb 1]

[nb 2]