Underwater demolition
Underwater demolition is the deliberate destruction or neutralization of man-made or natural underwater obstacles, both for military and civilian purposes.
History[edit]
Charles Pasley[edit]
In 1839 Charles Pasley, at the time a colonel of the Royal Engineers, started operations to break up the wreck of HMS Royal George, a 100-gun first rate launched in 1756, which sank at moorings at Spithead in 1782, and then salvage as much as possible using divers. Pasley had previously destroyed some old wrecks in the Thames to clear a channel using gunpowder charges. The charges used were made from oak barrels filled with gunpowder and covered with lead. They were initially detonated using chemical fuses, but this was later changed to an electrical system using a resistance-heated platinum wire to detonate the gunpowder.[1][2]
Pasley's operation set many diving milestones, including the first recorded use of the buddy system in diving, when he ordered that his divers operate in pairs.[3]: 9 In addition, a Corporal Jones made the first emergency swimming ascent after his air line became tangled and he had to cut it free.[citation needed] A less fortunate milestone was the first medical account of a diver squeeze suffered by a Private Williams.[citation needed] The early diving helmets used had no non-return valves, which meant that if a hose was severed near the surface, the high-pressure air around the diver's head rapidly evacuated the helmet, causing a large pressure difference between the surrounding water and the remaining gas, with extreme and sometimes life-threatening effects. At the British Association for the Advancement of Science meeting in 1842, Sir John Richardson described the diving apparatus and treatment of diver Roderick Cameron following an injury that occurred on 14 October 1841 during the salvage operations.[4]
In 1840, the use of controlled explosions to destroy the wreck continued through to September.[5] On an occasion that year the Royal Engineers set off a huge controlled explosion which shattered windows as far away as Portsmouth and Gosport.[6]
Meanwhile, Pasley had recovered 12 guns in 1839, 11 more in 1840, and 6 in 1841. In 1842 he recovered only one iron 12-pounder, because he ordered the divers to concentrate on removing the hull timbers rather than search for guns. By 1843 the whole of the keel and the bottom timbers had been raised and the site was declared clear.[7]
Benjamin Maillefert and Julius H. Kroehl were active in underwater demolition in the US around the time of the civil war.
John G. Foster[edit]
Shortly after the American Civil War, Brevet Maj. Gen. John G. Foster, a West Point trained engineer, became one of the first acknowledged experts in underwater demolition.[citation needed] In 1869, he wrote a definitive treatise on the topic and became widely recognized as the authority on underwater demolition. Many of his theories and techniques were still in practice during the Spanish–American War and World War I.[citation needed]
Christian J. Lambertsen[edit]
In 1940, Christian J. Lambertsen demonstrated his semi-closed circuit rebreather, the Lambertsen Amphibious Respiratory Unit (LARU), for the U.S. Navy in connection with his proposal for the formation of military teams of underwater swimmers.[8][9]
Major Lambertsen served in the U.S. Army Medical Corps from 1944 to 1946 where he did a detached service in underwater operations with the Office of Strategic Services (OSS). After joining OSS, he was vital in establishing the first cadres of U.S. military operational combat swimmers during late World War II.
His responsibilities included training and developing methods of combining self-contained diving and swimmer delivery for the OSS "Operational Swimmer Group".[10][11] Following World War II, he trained U.S. forces in methods for submerged operations, including composite fleet submarine / operational swimmers activity.[12]
Draper L. Kauffman[edit]
In June 1943, Draper L. Kauffman organized the first U.S. Navy Demolition Teams. The original purpose of these teams was to map and record conditions in amphibious landing zones and to demolish obstacles in water which would prevent vehicles from landing during invasions.[13]
Underwater demolition specialists may still be referred to as underwater demolition teams. Various special operations units use aspects of demolition diving. Most prominently carried out by Navy SEALs and UCT divers.[citation needed]
Methods[edit]
The methods used for dismantling and clearing structures underwater include hydraulic cutting, oxy-arc cutting, oxyacetylene cutting, Jackhammers, hydraulic breakers, explosives, non-explosive demolition agents (expanding grout), submersible diamond wire saws and ultra high pressure water jetting.[14][15]
Expanding grout is a cement that expands on curing, producing extremely high pressure, in the order of 18,000 pounds per square inch (120 MPa) when confined in a hole drilled in a brittle material such as concrete or rock, causing it to crack without large movements, noise, dust or major shock waves.[15]
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Applications[edit]
Underwater demolition has similar civilian and military applications. Piecemeal wrecking of a shipwreck, also called wrecking in place, is the dismantling of the whole or parts of a wreck in situ, usually when it is not possible or economically viable to salvage it, and it is a navigational hazard or must be removed for some other reason. Removal and disposal of the ship's contents, such as cargo, stores, and equipment may be required before the structure is demolished.[16]: Ch. 14
The usual methods for underwater wrecking in place are manual flame cutting by divers and surface workers, mechanical demolition using heavy lift cranes, explosive sectioning, dispersal, or flattening, and burial or settling by hydraulic dredging.[16]: Ch. 14
Demolition of damaged or otherwise redundant coastal structures, such as bridges, jetties, breakwaters or harbours, and clearing of natural or artificial obstructions to waterways, may include underwater demolition.
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Environmental impact and safety[edit]
Bubble screens can be used to keep large marine animals away from blasting and other sources of loud noise.[17] The bubbles will also absorb some of the blast energy and sound,[18][19] but their effectiveness is unproven.[20]
Research[edit]
Research into diver safety related to underwater blast continues at the US Naval Submarine Medical Research Laboratory.[21]
See also[edit]
- Underwater Demolition Team – US Navy special operations group
- Underwater Construction Teams – Navy construction battalion underwater construction units
- Clearance diver – Navy diver specialist with explosives
- Frogman – Tactical scuba diver
- Defense against swimmer incursions – Methods of protection from incursions by divers and swimmers
References[edit]
- ^ The National Cyclopaedia of Useful Knowledge, Vol III, (1847), London, Charles Knight, p.414.
- ^ "Clipped from Hampshire Telegraph and Naval Chronicle". Hampshire Telegraph and Naval Chronicle. 30 September 1839. p. 4.
- ^ Tony Booth (6 October 2007). Admiralty Salvage in Peace and War 1906 – 2006: Grope, Grub and Tremble. Pen and Sword. p. 1. ISBN 978-1-78337-470-0.
- ^ Richardson, J. (January 1991). "Abstract of the case of a diver employed on the wreck of the Royal George, who was injured by the bursting of the air-pipe of the diving apparatus. 1842". Undersea Biomed Res. 18 (1): 63–4. PMID 2021022. Archived from the original on October 31, 2009. Retrieved 2008-06-19.
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: CS1 maint: unfit URL (link) - ^ "Small explosion at the Royal George, Spithead". The Hampshire Advertiser. 5 September 1840. p. 3.
- ^ "BBC News – The wreck that revealed the Mary Rose". Bbc.co.uk. 4 September 2011. Retrieved 2011-09-05.
- ^ Percy, Sholto (1843). Iron: An Illustrated Weekly Journal for Iron and Steel Manufacturers. Vol. 39. Knight and Lacey.
- ^ Lambertsen, CJ (1941). "A diving apparatus for life saving work". Journal of the American Medical Association. 116 (13): 1387–1389. doi:10.1001/jama.1941.62820130001015.
- ^ Larson, HE and the Committee on Undersea Warfare (1959). "A history of self-contained diving and underwater swimming". National Academy of Sciences - National Research Council Report. Publication 469.
- ^ Vann RD (2004). "Lambertsen and O2: beginnings of operational physiology". Undersea and Hyperbaric Medicine. 31 (1): 21–31. PMID 15233157. Archived from the original on June 13, 2008. Retrieved 2008-04-25.
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: CS1 maint: unfit URL (link) - ^ Butler FK (2004). "Closed-circuit oxygen diving in the U.S. Navy". Undersea and Hyperbaric Medicine. 31 (1): 3–20. PMID 15233156. Archived from the original on June 13, 2008. Retrieved 2008-04-25.
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: CS1 maint: unfit URL (link) - ^ Lambertsen, C.J. (1947). "Problems of shallow water diving. Report based on experiences of operational swimmers of the Office of Strategic Services". Occupational Medicine. 3 (3): 230–245. doi:10.1093/occmed/3.1.230. PMID 20238884.
- ^ The National Navy UDT-SEAL Museum (2004). "Navy SEAL history: WORLD WAR II". Archived from the original on 2008-09-15. Retrieved 2008-09-13.
- ^ "Underwater demolition". opecsystems.com. OPEC Systems. Retrieved 21 May 2023.
- ^ Jump up to: a b "What is Dexpan non explosive demolition agent AKA Expansive grout". www.dexpan.com. Retrieved 23 May 2023.
- ^ Jump up to: a b U.S. Navy Salvage Manual (PDF). Vol. 1: Strandings, Harbor Clearance and Afloat Salvage S0300-A6-MAN-010. United States. Navy Department. Supervisor of Salvage and Diving. 31 May 2013. Archived (PDF) from the original on 5 April 2023. Retrieved 28 March 2023. This article incorporates text from this source, which is in the public domain.
- ^ "UCT 2 conducts underwater demolition to improve port access". 17 September 2018. Retrieved 23 May 2023.
- ^ Bryson, Lindsey; Smith, Paul; Mahboub, Kamyar (2020). "A rational bubble screen design approach for mitigation of underwater explosion near waterborne infrastructure". Canadian Journal of Civil Engineering. 48 (3): 298–311. doi:10.1139/cjce-2019-0433. S2CID 213225141.
- ^ Würsig, Bernd; Greene, C.; Jefferson, T. (2000). "Development of an Air Bubble Curtain to Reduce Underwater Noise of Percussive Piling". Marine Environmental Research. 49 (1): 79–93. Bibcode:2000MarER..49...79W. doi:10.1016/S0141-1136(99)00050-1. PMID 11444016.
- ^ Berthinussen, A.; Smith, R.K.; Sutherland, W.J. (2021). "Marine and Freshwater Mammal Conservation: Global Evidence for the Effects of Interventions. Conservation Evidence Series Synopses". Cambridge, UK.: University of Cambridge.
- ^ Cudahy, E & Parvin, S (2001). "The Effects of Underwater Blast on Divers". US Naval Submarine Medical Research Lab Technical Report. NSMRL-1218. Archived from the original on 3 July 2009. Retrieved 13 September 2008.
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