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{{Short description|Recreational watercraft that uses an inboard engine powering a pump-jet with an impeller}}
]
{{redirect|Jet ski|the brand-name watercraft|Jet Ski|other uses|Jet Ski (disambiguation)}}
{{More citations needed|date=September 2012}}


]]]
A '''personal watercraft''' (PWC) is a ] ] that the rider sits or stands on, rather than inside of, as in a ]. Models have an ] ] driving a ]. They are often referred by the name Jetski, which is in fact a brand name owned by ].
]


A '''personal watercraft''' ('''PWC'''), also called '''water scooter''', is a primarily ]al ] that is designed to hold only a small number of occupants, who sit or stand on top of the craft, not within the craft as in a ].
Most are designed for two or three ], though four-passenger models exist. Stand-up PWCs are also popular for single riders, offering a more challenging and "extreme" ride.


Prominent brands of PWCs include Jet Skis and Sea-Doos.
WCs powered by ] engines cause remarkable amounts of air and water pollution because of their inefficiency, and because they vent their exhaust underwater. ] engines are somewhat better as they do not burn as much lubricating oil. According to the ], operating a 2-stroke 100-HP PWC for one hour produces as much ] as operating a car for ten years (130,000 miles) and, according to the Environmental Protection Agency, a PWC emits from more than 25% of its oil and gas unburned into the water. The Surfrider Foundation indicates that, at that rate, a PWC discharges up to 3 gallons of fuel per hour. The Bluewater Network has estimated that during one four-day weekend in 2000 PWCs collectively discharged 1200 gallons of gasoline and 100 gallons of lubricating oil into ]'s .75 square-mile Mission Bay.


PWCs have two style categories. The first and the most popular is a compact ], typically holding no more than two or three people, who mainly sit on top of the watercraft as one does when riding an ] or ]. The second style is a "stand-up" type, typically built for only one occupant who operates the watercraft standing up as in riding a ]; it is used more for doing tricks, racing, and in competitions. Both styles have an ] engine driving a ] that has a screw-shaped ] to create thrust for propulsion and steering. Most are designed for two or three people, though four-passenger models exist. Many of today's models are built for more extended use and have the fuel capacity to make long cruises, in some cases even beyond {{convert|100|miles|km|order=flip}}.<ref>{{cite web|title=Personal Watercraft|publisher=boats.com|url=https://www.boats.com/explore/pwcs/personal-watercraft/}}</ref>
==List of popular brands==


Personal watercraft are often referred by the ]ed brand names of ] (]), ] (]), ] (]), Elaqua (E-PWC) and ] (AquaTrax).
* ] (by ])

* ]
Personal watercraft boat conversion kits exist as Waveboats.<ref>https://www.obmagazine.media/superyacht-tenders/sealver-waveboat-z-line-hevo/</ref>
* ] (now defunct)

* Tigershark (now defunct)
The ] defines a personal watercraft, amongst other criteria, as a jet-drive boat less than {{convert|12|ft|m}} long.<ref>US Coast Guard "Annual Boating Statistics, 2006". {{webarchive|url=https://web.archive.org/web/20090902191629/http://www.uscgboating.org/statistics/boating_statistics_2006.pdf |date=2009-09-02 }}</ref> There are many larger "]s" not classed as PWCs, some more than {{convert|40|ft|m}} long.
* ]

* ]
==History==
]]]

Water scooters—as they were originally termed—were first developed in the United Kingdom and Europe in the mid-1950s, with models such as the British 200cc propeller-driven ] ''Amanda'', and the German ''Wave Roller''.<ref>.</ref><ref>.</ref> Two thousand Vincent Amandas were exported to Australia, Asia, Europe and the United States.<ref> {{webarchive|url=https://web.archive.org/web/20140101204839/http://www.voc.uk.com/net/docs/17/17-553-14.pdf |date=2014-01-01 }}.</ref>

]

The Sea Skimmer was introduced in 1961 as a highly maneuverable version of a propelled surfboard. It was {{Convert|1.7|m|ft|abbr=on}} long, powered by an inboard/outboard motor and reached speeds up to {{Convert|40|km/h|mph|abbr=on}}. The rider lay on the boat, controlling the speed with hand throttles and using the feet as rudders. Originally manufactured in Kansas City, operations moved to Boynton, Florida, in 1962, and the name was changed to Aqua-Skimmer. Aqua-Skimmer ceased operations in 1962 and sold its inventory to the military. Renamed Aqua Dart (Aqua Dart INC), the ] was modified for military requirements, and saw service in 1962 ] missions in Vietnam and other military missions until the 1970s.<ref>{{Cite news|date=1961-01-15|title=1961-01-15 Dolphin Sea Skimmer at Boat Show Daily_News_Sun New York|pages=133|work=Daily News|url=https://www.newspapers.com/clip/86374359/1961-01-15-dolphin-sea-skimmer-at-boat/|access-date=2021-10-02}}</ref><ref>{{Cite news|date=1961-03-23|title=Sea Skimmer Tiny Boat Big Show Stopper Tennessee Boat Show|pages=1|work=The Tennessean|url=https://www.newspapers.com/clip/86369678/sea-skimmer-tiny-boat-big-show-stopper/|access-date=2021-10-02}}</ref><ref>{{Cite news|date=1961-03-23|title=1961-03-23 Sea Skimmer 3 models The_Tennessean_Nashville|pages=24|work=The Tennessean|url=https://www.newspapers.com/clip/86373966/1961-03-23-sea-skimmer-3-models/|access-date=2021-10-02}}</ref><ref>{{Cite news|date=1961-02-19|title=1961-02-19 Mermaid with a motor Sea Skimmer made in Kansas City The_Miami_Herald|pages=175|work=The Miami Herald|url=https://www.newspapers.com/clip/86374951/1961-02-19-mermaid-with-a-motor-sea/|access-date=2021-10-02}}</ref><ref>{{Cite news|date=1962-04-23|title=1962-04-23 Tetyak to move Aqua-Skimmer to Florida Fort_Lauderdale_News|pages=4|work=Fort Lauderdale News|url=https://www.newspapers.com/clip/86375203/1962-04-23-tetyak-to-move-aqua-skimmer/|access-date=2021-10-02}}</ref><ref>Title “Evaluation of River Reconnaissance System by UDT-12 (Aqua Dart)"; National Archives and Records Administration Naval Special Warfare Group SWG Papers, Record Group 38, FY81, vol 62; Entry Number UD-UW 95, Box 21</ref>

]

In the 1960s, the idea was developed further by ] of ], USA. Originally a motocross enthusiast,<ref name="bot">{{cite book | author = Sampsell, Michael M.| year = 2002 | title = Boat Accident Reconstruction and Litigation | publisher = Lawyers & Judges Publishing | isbn = 0-913875-79-1 | pages = 63–4|display-authors=etal}}</ref><ref>{{cite web|title=Personal Watercraft|publisher=Massachusetts Institute of Technology|url=http://web.mit.edu/invent/iow/watercraft.html|archive-url=https://web.archive.org/web/20030831113106/http://web.mit.edu/invent/iow/watercraft.html|url-status=dead|archive-date=2003-08-31}}</ref><ref name="frum">{{cite book | author = Action, Johnny | author2 = Adams, Tania | author3 = Packer, Matt | year = 2006 | title = Origin of Everyday Things | publisher = Sterling Publishing | isbn = 1-4027-4302-5 | pages = | url-access = registration | url = https://archive.org/details/originofeveryday0000acto/page/124 }}</ref> Jacobson's idea was designed in the mid-1960s, powered by an internal ] rather than an ],<ref name="frum" /> made of all aluminum, and had a fixed, upright handle. Jacobson eventually quit his job in banking to devote himself to developing the idea, and had a working prototype by 1965. It differed slightly from modern personal watercraft but had definite similarities. He completed a second prototype a year later made of fiberglass.<ref name="pwc">{{cite web | url = http://www.boats.com/news-reviews/article/jet-ski-evolution | title = Jet Ski Evolution | access-date = 2011-05-19 | publisher = boats.com
|archive-url=https://web.archive.org/web/20071010072940/http://www.boats.com/news-reviews/article/jet-ski-evolution
|archive-date=2007-10-10
}}</ref>
The first Clayton-type PWC to reach the market was designed by ] in the late 1960s.<ref>{{cite web |title=How Sea-Doo Launched the Personal Watercraft Industry |url=https://www.popsells.com/boat-article/how-sea-doo-launched-the-personal-watercraft-industry-130 |access-date=2014-12-11 |website=PopSells}}</ref> Bombardier's original designs were not very popular and Bombardier left the business before 1970.

In Greece, an inventor named Dimitrios T. Moraitidis, built a prototype and submitted a patent to the government of the Kingdom of Greece on the 5th June 1970, with serial number 40056.<ref>{{Cite web |title=ΒΑΣΙΛΕΙΟΝ ΤΗΣ ΕΛΛΑΔΟΣ ΥΠΟΥΡΓΕΙΟΝ ΕΜΠΟΡΙΟΥ: ΔΙΠΛΩΜΑ ΕΥΡΕΣΙΤΕΧΝΙΑΣ |url=https://d-moraitidis.com/core/documents/patent_vespa.pdf |url-status=live |archive-url=https://web.archive.org/web/20240303083955/https://d-moraitidis.com/core/documents/patent_vespa.pdf |archive-date=2024-03-03 |access-date=2024-05-26 |website=d-moraitidis.com |language=el}}</ref>{{Primary source inline|date=May 2024}} He never exploited the invention commercially. He died on March 5, 2022.{{Citation needed|date=May 2024}}

Stand-up PWCs were first produced by the Japanese company ] (under the ] brand) in 1972,<ref>{{Cite web|url=http://edition.cnn.com/2017/06/13/world/gallery/japanese-inventions-changed-how-we-live/index.html|title = Japanese inventions that changed the way we live| date=13 June 2017 }}</ref> and appeared on the US market in 1973. These were mass-produced boats to be used by only one rider. While they are still produced today, the more popular design is the sit-down variety of PWC. These sit-down runabouts have been produced by Kawasaki (Jetski), Bombardier (]), Yamaha (]), ] (AquaTrax), ] (Sealion) and ] (]). As of 2010, the major manufacturers of PWCs were Kawasaki, Bombardier and Yamaha. Both Yamaha and Kawasaki continue to sell stand-up models but it is a small percentage of the overall market.

]

Electric PWCs were commercialized in the early 2020s. Electric watercraft are increasing in popularity as gasoline engines produce ]es and can eject ] and ] directly into ]s.

== Sports ==
{{More citations needed section|date=May 2024}}
PWC racing competitions take place around the world. There are several disciplines: closed circuit speed races, offshore speed races (offshore), endurance races, freestyle (freestyle) and freeride events. For all these types of events, with the exception of freestyle, there are at least two categories: saddle jets and stand-up jets. For speed races, gear is generally classified according to the degree of authorized modifications: minor modifications fall into the so-called "stock" category, intermediate modifications into the so-called "limited" category, and more extensive modifications into the category. known as "F1". In freestyle and freeride, these categories do not exist; rather, the competitors are classified according to the type of watercraft used (with stand-up or saddle).

The sport is ruled by the World Powerboating Federation (], U.I.M.) recognised by the ]. The current official world series, established in 1996, is the ].<ref>{{Cite web|url=https://www.uim.sport/Wys.aspx?num=3|title=Union internationale motonautique}}</ref> The sport is also established at the national level and is ruled by each national federation's member of the U.I.M. Aquabike World Championship is known among the motorsports with most different national entries for each competition, reaching up to 32 nationalities and 140 riders registered to compete in Italy in 2018.<ref>{{Cite web |date=12 March 2018 |title=Il mondiale di aquabike sbarca a Olbia |url=https://www.lanuovasardegna.it/olbia/cronaca/2018/03/11/news/il-mondiale-di-aquabike-ora-sbarca-al-molo-brin-1.16581313 |website=La Nuova Sardegna |language=it}}</ref>

Other private competitions also exist, such as P1 AquaX, which is a personal watercraft racing series, first launched in the UK in May 2011 by London-based sports promoter Powerboat P1. The series attracted a mix of new and current racers to a new type of racing and in 2013, P1 rolled out a second series in the USA. Such was the uptake that the original format needed revising to cope with the influx of new riders and by the end of 2015 over 400 riders from 11 countries had registered to compete in an AquaX event.

In the United States, the main sanctioning bodies are the ] (IJSBA) and ] (PWX). As of 2022, the sport is experiencing exceeding levels of fragmentation and conflict due to poor management of the sanctioning bodies and non-constructive competition between organizations. The IJSBA World Finals competition is traditionally held in Lake Havasu City, Arizona, in early October. The Pro Watercross World Finals are typically held in Naples, Florida, in November.

== Non-recreational uses ==
{{unreferenced section|date=August 2018}}
]
]
] in ]]]

PWCs are small, fast, easily handled, fairly easy to use, and affordable, and their propulsion systems do not have external propellers, making them in some respects safer than small motorboats for swimmers and wildlife. For these reasons, they are used for ], one of the PWC industry's fastest-growing segments.

Lifeguards use PWCs equipped with rescue platforms to rescue water users from trouble, as well as flood survivors, and carry them to safety. Police and rangers use them to enforce laws in coastal waters, lakes and rivers. {{Citation needed|date=July 2010}} A PWC combined with a wash-reduction system, carrying waterproof loudspeaker equipment and GPS for instructions and distance measurement, has reportedly{{Citation needed|date=June 2008}} been used by assistant coaches for rowing sports on the River Tyne.

Further, PWCs are used by the U.S. Navy as surface targets.{{Citation needed|date=June 2008}} When equipped with GPS, electronic compass, radar reflector, and a radio modem, the PWC can be controlled remotely with a two-way link. Its small shipboard footprint allows it to be stored in and deployed from the smallest of vessels, and it has been used for target practice for armaments of sizes from {{convert|5|in|cm|abbr=on}} ] to ].{{Citation needed|date=June 2008}}

==Hazards==
{{main|Personal watercraft–related accidents}}
]

Apart from the obvious hazards of collisions and mechanical breakdowns common to all ]s, operating or riding a PWC can involve a risk of ] injuries.<ref>Jim Stingl, "Have fun on your watercraft, butt beware," '']'', 28 June 2000, 1.</ref><ref>Roy Scott Hickman and Michael M. Sampsel, (]: Lawyers & Judges Publishing Company, 2003), 71, 78.</ref> These injuries are typical of the kinds of injuries that waterskiers experience as a result of falling into the water at speed.<ref>See Romano RL. Burgess EM. Medical Implications of Water-skiing, Clin Orthop, 22: 140-145 (1962).; David Pfanner, Salpingitis and Water Skiing FRCS The Medical Journal of Australia, 2/1964.; Moore A. T.: Water-skiing in Symposium on Injury in sport. Edited by Armstrong JR, Tucker WE; London Staples, 1964; McCarthy GF. Hazards of water-skiing. Med J Aust. 1969; 1:481; David C. Morton, Gynecological Complications of Water Skiing M.R.C.O.G. Gosford District Hospital, New South Wales Medical Journal of Australia, June 20, 1970. The first waterski reports of this kind of injury appeared in the early 1960s and continue today. Prior to that time there were no reported injuries of this type. Similar reports of this kind of injury have occurred at water slide parks and other similar facilities. Once again, the occurrence rate for this kind of injury appears to be very low.</ref> Such injuries can occur from simply falling in the water at speed or they can occur from the output end of the pump jet. A rider who falls (or is ejected) off the back can land directly in the path of the PWC's high-pressure jet of water. Unless a rider is appropriately dressed in garments made out of a strong, thick substance like ] (as is commonly found in ]s), the jet may penetrate any orifice it reaches. All major PWC manufacturers warn about this risk and recommend that passengers wear wet suit bottoms or equivalent protection. The American Waterski Racing Association recommends that all of their racers wear wet suit bottoms for this same reason.

Such orifice injuries can result in permanent disability or death.<ref>Bernard Descottes, Fouzi Lachachi, Issifou Moumouni, Sylvaine Durand-Fontanier, and Ramy Geballa, "Case Report: Rectal Injury Caused by Personal Watercraft Accident," ''Diseases of the Colon and Rectum'' 46, no. 7 (June 2003): 971-972. The 16-year-old patient described in this case report was deceased. The autopsy revealed that the primary cause of death was ] caused by the rectal tear.</ref><ref>David P. Parsons, Harry A. Kahn, John T. Isler and Richard P. Billingham, "Case Report: Rectal Injury Caused by Personal Watercraft Accident," ''Diseases of the Colon and Rectum'' 42, no. 7 (July 1999): 959-960. The patient described in this case report survived.</ref> For example, in 2006, the ] for the First Appellate District upheld a $3.7 million ] jury verdict against ] arising out of one such incident (which had devastating effects on the victim's lower abdomen).<ref>, 139 Cal. App. 4th 755, 43 Cal. Rptr. 3d 215 (2006). The plaintiff survived due to the heroic efforts of ] personnel (the court noted that she required "massive resuscitation") but was permanently disabled by her injuries; for example, she has no bowel control.</ref>
It is also possible for multiple riders on the same PWC to sustain orifice injuries in a single accident, as actually occurred in a 2007 accident at ] which resulted in a ] jury verdict affirmed in full on appeal in 2014.<ref name="Colombo">, 230 Cal. App. 4th 1442; 179 Cal. Rptr. 3d 580 (2014). As the appellate court explained in its opinion, this case was delayed after the PWC owner initiated a proceeding in federal court under the ].</ref>

Another noteworthy risk of injury is known as off throttle steering, which results from the lack of steering capability while off throttle in certain models of PWCs. This can result in death or serious bodily injuries.

While also rare, ] can occur while surf jumping and, potentially, wake jumping.<ref>Am Surg. 2002 Jul;68(7):624-7. "Pattern of injury from personal watercraft". Haan JM, Kramer ME, Scalea TM; J Trauma. 2004 Dec;57(6):1308-10. "Thoracolumbar fractures associated with the use of personal watercraft". Carmel A, Drescher MJ, Leitner Y, Gepstein R.</ref> The PWC manufacturers' owner's manuals all include warnings regarding jumping at excessive heights, or operating a PWC if there is a prior history of back injury. The current on-product labels say "Jumping wakes or waves can increase the risk of spinal/backbone injuries (paralysis)".<ref>2001 Joint USCG/Industry Label Project, Injury Control and Safety Promotion, 2001, Vol. 8, No. 2, pp71-81; Labeling for Personal Watercraft.</ref> The current Kawasaki owner's manual provides: "Slow down before crossing waves. Do not ride if you have a back condition. High speed operation in choppy or rough water may cause back injuries."<ref>JT1100-G1 Owner's Manual, page 53-54</ref>

Another rare, but unique injury risk with jetboats, is being sucked into the intake side of the pump jet. Current PWC products contain on-product warnings that state: "''Keep away from Intake Grate'' while the engine is on. Items such as long hair, loose clothing, or PFD straps can become entangled in moving parts and result in severe injury or drowning".<ref>2001 Joint USCG/Industry Label Project, Injury Control and Safety Promotion, 2001, Vol. 8, No. 2, pp71-81; Labeling for Personal Watercraft</ref>

There have been fatal accidents involving PWCs. In a notable case, U.S. astronaut ] died in 2012 from injuries sustained in a Jet Ski accident in ].<ref>{{Cite web|url=http://www.space.com/16386-astronaut-alan-poindexter-dies-jet-ski-accident.html|title=Former NASA Astronaut Alan Poindexter, 50, Dies in Jet Ski Accident|website=] |date=2 July 2012}}</ref>


==See also== ==See also==
* ] (of historical interest)
* ]
* ] * ]
* ] * ]
* ] featuring personal watercraft:
** '']''
** '']''
** '']''
*** '']''
*** '']''
* ]
* ]
* ]
* ]
* ]

== References ==
{{Reflist|40em}}

== External links ==
{{Commons category|Personal watercraft}}
*


{{Authority control}}
{{water-stub}}


{{DEFAULTSORT:Personal Water Craft}}
]
]
]
]

Latest revision as of 05:13, 10 December 2024

Recreational watercraft that uses an inboard engine powering a pump-jet with an impeller "Jet ski" redirects here. For the brand-name watercraft, see Jet Ski. For other uses, see Jet Ski (disambiguation).
This article needs additional citations for verification. Please help improve this article by adding citations to reliable sources. Unsourced material may be challenged and removed.
Find sources: "Personal watercraft" – news · newspapers · books · scholar · JSTOR (September 2012) (Learn how and when to remove this message)
A watercraft on the Mekong River
A personal watercraft Waveboat conversion

A personal watercraft (PWC), also called water scooter, is a primarily recreational watercraft that is designed to hold only a small number of occupants, who sit or stand on top of the craft, not within the craft as in a boat.

Prominent brands of PWCs include Jet Skis and Sea-Doos.

PWCs have two style categories. The first and the most popular is a compact runabout, typically holding no more than two or three people, who mainly sit on top of the watercraft as one does when riding an ATV or snowmobile. The second style is a "stand-up" type, typically built for only one occupant who operates the watercraft standing up as in riding a motorized scooter; it is used more for doing tricks, racing, and in competitions. Both styles have an inboard engine driving a pump-jet that has a screw-shaped impeller to create thrust for propulsion and steering. Most are designed for two or three people, though four-passenger models exist. Many of today's models are built for more extended use and have the fuel capacity to make long cruises, in some cases even beyond 160 kilometres (100 miles).

Personal watercraft are often referred by the trademarked brand names of Kawasaki (Jet Ski), Yamaha (WaveRunner), Bombardier (Sea-Doo), Elaqua (E-PWC) and Honda (AquaTrax).

Personal watercraft boat conversion kits exist as Waveboats.

The United States Coast Guard defines a personal watercraft, amongst other criteria, as a jet-drive boat less than 12 feet (3.7 m) long. There are many larger "jetboats" not classed as PWCs, some more than 40 feet (12 m) long.

History

Vincent Amanda at the London Motorcycle Museum

Water scooters—as they were originally termed—were first developed in the United Kingdom and Europe in the mid-1950s, with models such as the British 200cc propeller-driven Vincent Amanda, and the German Wave Roller. Two thousand Vincent Amandas were exported to Australia, Asia, Europe and the United States.

1961 Sea Skimmer / Aqua Skimmer could reach speeds up to 40km/h

The Sea Skimmer was introduced in 1961 as a highly maneuverable version of a propelled surfboard. It was 1.7 m (5.6 ft) long, powered by an inboard/outboard motor and reached speeds up to 40 km/h (25 mph). The rider lay on the boat, controlling the speed with hand throttles and using the feet as rudders. Originally manufactured in Kansas City, operations moved to Boynton, Florida, in 1962, and the name was changed to Aqua-Skimmer. Aqua-Skimmer ceased operations in 1962 and sold its inventory to the military. Renamed Aqua Dart (Aqua Dart INC), the Sea Skimmer, Aqua Skimmer, Aqua Dart was modified for military requirements, and saw service in 1962 river reconnaissance missions in Vietnam and other military missions until the 1970s.

The first stand-up prototype

In the 1960s, the idea was developed further by Clayton Jacobson II of Lake Havasu City, Arizona, USA. Originally a motocross enthusiast, Jacobson's idea was designed in the mid-1960s, powered by an internal pump-jet rather than an outboard motor, made of all aluminum, and had a fixed, upright handle. Jacobson eventually quit his job in banking to devote himself to developing the idea, and had a working prototype by 1965. It differed slightly from modern personal watercraft but had definite similarities. He completed a second prototype a year later made of fiberglass. The first Clayton-type PWC to reach the market was designed by Bombardier in the late 1960s. Bombardier's original designs were not very popular and Bombardier left the business before 1970.

In Greece, an inventor named Dimitrios T. Moraitidis, built a prototype and submitted a patent to the government of the Kingdom of Greece on the 5th June 1970, with serial number 40056. He never exploited the invention commercially. He died on March 5, 2022.

Stand-up PWCs were first produced by the Japanese company Kawasaki (under the Jet Ski brand) in 1972, and appeared on the US market in 1973. These were mass-produced boats to be used by only one rider. While they are still produced today, the more popular design is the sit-down variety of PWC. These sit-down runabouts have been produced by Kawasaki (Jetski), Bombardier (Sea-Doo), Yamaha (WaveRunner), Honda (AquaTrax), Polaris (Sealion) and Arctic Cat (Tigershark). As of 2010, the major manufacturers of PWCs were Kawasaki, Bombardier and Yamaha. Both Yamaha and Kawasaki continue to sell stand-up models but it is a small percentage of the overall market.

An electric personal watercraft

Electric PWCs were commercialized in the early 2020s. Electric watercraft are increasing in popularity as gasoline engines produce greenhouse gases and can eject motor oil and gasoline directly into waterways.

Sports

This section needs additional citations for verification. Please help improve this article by adding citations to reliable sources in this section. Unsourced material may be challenged and removed. (May 2024) (Learn how and when to remove this message)

PWC racing competitions take place around the world. There are several disciplines: closed circuit speed races, offshore speed races (offshore), endurance races, freestyle (freestyle) and freeride events. For all these types of events, with the exception of freestyle, there are at least two categories: saddle jets and stand-up jets. For speed races, gear is generally classified according to the degree of authorized modifications: minor modifications fall into the so-called "stock" category, intermediate modifications into the so-called "limited" category, and more extensive modifications into the category. known as "F1". In freestyle and freeride, these categories do not exist; rather, the competitors are classified according to the type of watercraft used (with stand-up or saddle).

The sport is ruled by the World Powerboating Federation (Union Internationale Motonautique, U.I.M.) recognised by the International Olympic Committee. The current official world series, established in 1996, is the Aquabike World Championship. The sport is also established at the national level and is ruled by each national federation's member of the U.I.M. Aquabike World Championship is known among the motorsports with most different national entries for each competition, reaching up to 32 nationalities and 140 riders registered to compete in Italy in 2018.

Other private competitions also exist, such as P1 AquaX, which is a personal watercraft racing series, first launched in the UK in May 2011 by London-based sports promoter Powerboat P1. The series attracted a mix of new and current racers to a new type of racing and in 2013, P1 rolled out a second series in the USA. Such was the uptake that the original format needed revising to cope with the influx of new riders and by the end of 2015 over 400 riders from 11 countries had registered to compete in an AquaX event.

In the United States, the main sanctioning bodies are the International Jet Sport Boating Association (IJSBA) and Pro Watercross (PWX). As of 2022, the sport is experiencing exceeding levels of fragmentation and conflict due to poor management of the sanctioning bodies and non-constructive competition between organizations. The IJSBA World Finals competition is traditionally held in Lake Havasu City, Arizona, in early October. The Pro Watercross World Finals are typically held in Naples, Florida, in November.

Non-recreational uses

This section does not cite any sources. Please help improve this section by adding citations to reliable sources. Unsourced material may be challenged and removed. (August 2018) (Learn how and when to remove this message)
PWC with rescue platform.
Training preparedness Rescue Water Craft
PWC used by the Italian police in Venice

PWCs are small, fast, easily handled, fairly easy to use, and affordable, and their propulsion systems do not have external propellers, making them in some respects safer than small motorboats for swimmers and wildlife. For these reasons, they are used for fishing, one of the PWC industry's fastest-growing segments.

Lifeguards use PWCs equipped with rescue platforms to rescue water users from trouble, as well as flood survivors, and carry them to safety. Police and rangers use them to enforce laws in coastal waters, lakes and rivers. A PWC combined with a wash-reduction system, carrying waterproof loudspeaker equipment and GPS for instructions and distance measurement, has reportedly been used by assistant coaches for rowing sports on the River Tyne.

Further, PWCs are used by the U.S. Navy as surface targets. When equipped with GPS, electronic compass, radar reflector, and a radio modem, the PWC can be controlled remotely with a two-way link. Its small shipboard footprint allows it to be stored in and deployed from the smallest of vessels, and it has been used for target practice for armaments of sizes from 5 in (13 cm) cannon to small arms.

Hazards

Main article: Personal watercraft–related accidents
PWC warning label indicating risk of body cavity injuries

Apart from the obvious hazards of collisions and mechanical breakdowns common to all vehicles, operating or riding a PWC can involve a risk of orifice injuries. These injuries are typical of the kinds of injuries that waterskiers experience as a result of falling into the water at speed. Such injuries can occur from simply falling in the water at speed or they can occur from the output end of the pump jet. A rider who falls (or is ejected) off the back can land directly in the path of the PWC's high-pressure jet of water. Unless a rider is appropriately dressed in garments made out of a strong, thick substance like neoprene (as is commonly found in wetsuits), the jet may penetrate any orifice it reaches. All major PWC manufacturers warn about this risk and recommend that passengers wear wet suit bottoms or equivalent protection. The American Waterski Racing Association recommends that all of their racers wear wet suit bottoms for this same reason.

Such orifice injuries can result in permanent disability or death. For example, in 2006, the California Court of Appeal for the First Appellate District upheld a $3.7 million Napa County jury verdict against Polaris Industries arising out of one such incident (which had devastating effects on the victim's lower abdomen). It is also possible for multiple riders on the same PWC to sustain orifice injuries in a single accident, as actually occurred in a 2007 accident at Mission Bay which resulted in a San Diego County jury verdict affirmed in full on appeal in 2014.

Another noteworthy risk of injury is known as off throttle steering, which results from the lack of steering capability while off throttle in certain models of PWCs. This can result in death or serious bodily injuries.

While also rare, spinal injuries can occur while surf jumping and, potentially, wake jumping. The PWC manufacturers' owner's manuals all include warnings regarding jumping at excessive heights, or operating a PWC if there is a prior history of back injury. The current on-product labels say "Jumping wakes or waves can increase the risk of spinal/backbone injuries (paralysis)". The current Kawasaki owner's manual provides: "Slow down before crossing waves. Do not ride if you have a back condition. High speed operation in choppy or rough water may cause back injuries."

Another rare, but unique injury risk with jetboats, is being sucked into the intake side of the pump jet. Current PWC products contain on-product warnings that state: "Keep away from Intake Grate while the engine is on. Items such as long hair, loose clothing, or PFD straps can become entangled in moving parts and result in severe injury or drowning".

There have been fatal accidents involving PWCs. In a notable case, U.S. astronaut Alan G. Poindexter died in 2012 from injuries sustained in a Jet Ski accident in Florida.

See also

References

  1. "Personal Watercraft". boats.com.
  2. https://www.obmagazine.media/superyacht-tenders/sealver-waveboat-z-line-hevo/
  3. US Coast Guard "Annual Boating Statistics, 2006". uscgboating.org Archived 2009-09-02 at the Wayback Machine
  4. archive.wmlnj.org/var/www/TheWestfieldLeader/1956/1956-10-04/pg_0018.pdf.
  5. books.google.com/books?id=iSUDAAAAMBAJ&pg=PA98&lpg=PA98.
  6. www.voc.uk.com/net/docs/17/17-553-14.pdf Archived 2014-01-01 at the Wayback Machine.
  7. "1961-01-15 Dolphin Sea Skimmer at Boat Show Daily_News_Sun New York". Daily News. 1961-01-15. p. 133. Retrieved 2021-10-02.
  8. "Sea Skimmer Tiny Boat Big Show Stopper Tennessee Boat Show". The Tennessean. 1961-03-23. p. 1. Retrieved 2021-10-02.
  9. "1961-03-23 Sea Skimmer 3 models The_Tennessean_Nashville". The Tennessean. 1961-03-23. p. 24. Retrieved 2021-10-02.
  10. "1961-02-19 Mermaid with a motor Sea Skimmer made in Kansas City The_Miami_Herald". The Miami Herald. 1961-02-19. p. 175. Retrieved 2021-10-02.
  11. "1962-04-23 Tetyak to move Aqua-Skimmer to Florida Fort_Lauderdale_News". Fort Lauderdale News. 1962-04-23. p. 4. Retrieved 2021-10-02.
  12. Title “Evaluation of River Reconnaissance System by UDT-12 (Aqua Dart)"; National Archives and Records Administration Naval Special Warfare Group SWG Papers, Record Group 38, FY81, vol 62; Entry Number UD-UW 95, Box 21
  13. Sampsell, Michael M.; et al. (2002). Boat Accident Reconstruction and Litigation. Lawyers & Judges Publishing. pp. 63–4. ISBN 0-913875-79-1.
  14. "Personal Watercraft". Massachusetts Institute of Technology. Archived from the original on 2003-08-31.
  15. ^ Action, Johnny; Adams, Tania; Packer, Matt (2006). Origin of Everyday Things. Sterling Publishing. pp. 124. ISBN 1-4027-4302-5.
  16. "Jet Ski Evolution". boats.com. Archived from the original on 2007-10-10. Retrieved 2011-05-19.
  17. "How Sea-Doo Launched the Personal Watercraft Industry". PopSells. Retrieved 2014-12-11.
  18. "ΒΑΣΙΛΕΙΟΝ ΤΗΣ ΕΛΛΑΔΟΣ ΥΠΟΥΡΓΕΙΟΝ ΕΜΠΟΡΙΟΥ: ΔΙΠΛΩΜΑ ΕΥΡΕΣΙΤΕΧΝΙΑΣ" (PDF). d-moraitidis.com (in Greek). Archived (PDF) from the original on 2024-03-03. Retrieved 2024-05-26.
  19. "Japanese inventions that changed the way we live". 13 June 2017.
  20. "Union internationale motonautique".
  21. "Il mondiale di aquabike sbarca a Olbia". La Nuova Sardegna (in Italian). 12 March 2018.
  22. Jim Stingl, "Have fun on your watercraft, butt beware," Milwaukee Journal Sentinel, 28 June 2000, 1.
  23. Roy Scott Hickman and Michael M. Sampsel, Boat Accident Reconstruction and Litigation (Tucson: Lawyers & Judges Publishing Company, 2003), 71, 78.
  24. See Romano RL. Burgess EM. Medical Implications of Water-skiing, Clin Orthop, 22: 140-145 (1962).; David Pfanner, Salpingitis and Water Skiing FRCS The Medical Journal of Australia, 2/1964.; Moore A. T.: Water-skiing in Symposium on Injury in sport. Edited by Armstrong JR, Tucker WE; London Staples, 1964; McCarthy GF. Hazards of water-skiing. Med J Aust. 1969; 1:481; David C. Morton, Gynecological Complications of Water Skiing M.R.C.O.G. Gosford District Hospital, New South Wales Medical Journal of Australia, June 20, 1970. The first waterski reports of this kind of injury appeared in the early 1960s and continue today. Prior to that time there were no reported injuries of this type. Similar reports of this kind of injury have occurred at water slide parks and other similar facilities. Once again, the occurrence rate for this kind of injury appears to be very low.
  25. Bernard Descottes, Fouzi Lachachi, Issifou Moumouni, Sylvaine Durand-Fontanier, and Ramy Geballa, "Case Report: Rectal Injury Caused by Personal Watercraft Accident," Diseases of the Colon and Rectum 46, no. 7 (June 2003): 971-972. The 16-year-old patient described in this case report was deceased. The autopsy revealed that the primary cause of death was toxic shock syndrome caused by the rectal tear.
  26. David P. Parsons, Harry A. Kahn, John T. Isler and Richard P. Billingham, "Case Report: Rectal Injury Caused by Personal Watercraft Accident," Diseases of the Colon and Rectum 42, no. 7 (July 1999): 959-960. The patient described in this case report survived.
  27. Ford v. Polaris Industries, Inc., 139 Cal. App. 4th 755, 43 Cal. Rptr. 3d 215 (2006). The plaintiff survived due to the heroic efforts of UC Davis Medical Center personnel (the court noted that she required "massive resuscitation") but was permanently disabled by her injuries; for example, she has no bowel control.
  28. Colombo v. BRP US Inc., 230 Cal. App. 4th 1442; 179 Cal. Rptr. 3d 580 (2014). As the appellate court explained in its opinion, this case was delayed after the PWC owner initiated a proceeding in federal court under the Limitation of Liability Act of 1851.
  29. Am Surg. 2002 Jul;68(7):624-7. "Pattern of injury from personal watercraft". Haan JM, Kramer ME, Scalea TM; J Trauma. 2004 Dec;57(6):1308-10. "Thoracolumbar fractures associated with the use of personal watercraft". Carmel A, Drescher MJ, Leitner Y, Gepstein R.
  30. 2001 Joint USCG/Industry Label Project, Injury Control and Safety Promotion, 2001, Vol. 8, No. 2, pp71-81; Labeling for Personal Watercraft.
  31. JT1100-G1 Owner's Manual, page 53-54
  32. 2001 Joint USCG/Industry Label Project, Injury Control and Safety Promotion, 2001, Vol. 8, No. 2, pp71-81; Labeling for Personal Watercraft
  33. "Former NASA Astronaut Alan Poindexter, 50, Dies in Jet Ski Accident". Space.com. 2 July 2012.

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