SUPPORT THE WORK

GetWiki

Rogue wave

ARTICLE SUBJECTS
aesthetics  →
being  →
complexity  →
database  →
enterprise  →
ethics  →
fiction  →
history  →
internet  →
knowledge  →
language  →
licensing  →
linux  →
logic  →
method  →
news  →
perception  →
philosophy  →
policy  →
purpose  →
religion  →
science  →
sociology  →
software  →
truth  →
unix  →
wiki  →
ARTICLE TYPES
essay  →
feed  →
help  →
system  →
wiki  →
ARTICLE ORIGINS
critical  →
discussion  →
forked  →
imported  →
original  →
Rogue wave
[ temporary import ]
please note:
- the content below is remote from Wikipedia
- it has been imported raw for GetWiki
{{short description|Relatively large and spontaneous ocean surface waves that occur at sea}}{{About|rogue waves which are best known for causing severe damage to ships in open water but which appear to be ubiquitous in nature and are not limited to the oceans. For tsunami and tidal wave phenomena (as with bores and races), see those respective articles}}Image:Drauper freak wave.png|thumb|300px|The Draupner wave, a single giant wave measured on New Year's Day 1995, finally confirmed the existence of freak waves, which had previously been considered near-mythical.REPORT Draupner wave
File:Rockall wave March 1943.jpg|thumb|right|300px|A 1943 photograph of a large wave breaking over the islet of 56|ft|m}} above sea-level, and the height of the spray has been estimated at about {{convert|170|ft|m}}.Rogue waves (also known as freak waves, monster waves, episodic waves, killer waves, extreme waves, and abnormal waves) are large, unexpected and suddenly appearing surface waves that can be extremely dangerous, even to large ships such as ocean liners.NEWS
, Rogue Waves – Monsters of the deep: Huge, freak waves may not be as rare as once thought
, Economist Magazine
, September 17, 2009
,weblink
, 2009-10-04,
Rogue waves present considerable danger for several reasons: they are rare, unpredictable, may appear suddenly or without warning, and can impact with tremendous force. A {{convert|12|m|adj=on}} wave in the usual "linear" model would have a breaking pressure of {{convert|6|MT/m2|psi|abbr=~}}. Although modern ships are designed to tolerate a breaking wave of {{convert|15|MT/m2|psi|abbr=on}}, a rogue wave can dwarf both of these figures with a breaking pressure of {{convert|100|MT/m2|psi|abbr=on}}.In oceanography, rogue waves are more precisely defined as waves whose height is more than twice the significant wave height (Hs or SWH), which is itself defined as the mean of the largest third of waves in a wave record. Therefore, rogue waves are not necessarily the biggest waves found on the water; they are, rather, unusually large waves for a given sea state. Rogue waves seem not to have a single distinct cause, but occur where physical factors such as high winds and strong currents cause waves to merge to create a single exceptionally large wave.Rogue waves can occur in media other than water. They appear to be ubiquitous in nature and have also been reported in liquid helium, in nonlinear optics and in microwave cavities. Recent research has focused on optical rogue waves which facilitate the study of the phenomenon in the laboratory. A 2015 paper studied the wave behavior around a rogue wave, including optical, and the Draupner wave, and concluded that "rogue events do not necessarily appear without a warning, but are often preceded by a short phase of relative order".Predictability of Rogue Events, Simon Birkholz, Carsten Brée, Ayhan Demircan, and Günter Steinmeyer, Physical Review Letters 114, 213901, 28 May 2015. The physical origin of a rogue wave can be defined by the rogue wave theorem.

Background

Rogue waves are an open water phenomenon, in which winds, currents, non-linear phenomena such as solitons, and other circumstances cause a wave to briefly form that is far larger than the "average" large occurring wave (the significant wave height or 'SWH') of that time and place. The basic underlying physics that makes phenomena such as rogue waves possible is that different waves can travel at different speeds, and so they can "pile up" in certain circumstances – known as "constructive interference". (In deep ocean the speed of a gravity wave is proportional to the square root of its wavelength—the distance peak-to-peak.) However other situations can also give rise to rogue waves, particularly situations where non-linear effects or instability effects can cause energy to move between waves and be concentrated in one or very few extremely large waves before returning to "normal" conditions.Once considered mythical and lacking hard evidence for their existence, rogue waves are now proven to exist and known to be a natural ocean phenomenon. Eyewitness accounts from mariners and damage inflicted on ships have long suggested they occurred. The first scientific evidence of the existence of rogue waves came with the recording of a rogue wave by the Gorm platform in the central North Sea in 1984. A stand-out wave was detected with a wave height of {{convert|11|m}} in a relatively low sea state. However, the wave that caught the attention of the scientific community was the digital measurement of the "Draupner wave", a rogue wave at the Draupner platform in the North Sea on January 1, 1995, with a maximum wave height of {{convert|25.6|m}} (peak elevation of {{convert|18.5|m|disp=sqbr}}) . During that event, minor damage was also inflicted on the platform, far above sea level, confirming that the reading was valid.Their existence has also since been confirmed by video and photographs, and satellite imagery and radar of the ocean surface,NEWS
,weblink
, BBC News
, Freak waves spotted from space
, July 22, 2004
, May 22, 2010, by stereo wave imaging systems,JOURNAL, Benetazzo, Alvise, Barbariol, Francesco, Bergamasco, Filippo, Torsello, Andrea, Carniel, Sandro, Sclavo, Mauro, 2015-06-22, Observation of Extreme Sea Waves in a Space–Time Ensemble, Journal of Physical Oceanography, 45, 9, 2261–2275, 10.1175/JPO-D-15-0017.1, 0022-3670, 2015JPO....45.2261B, by pressure transducers on the sea-floor and notably by oceanographic research vessel. In February 2000, a British oceanographic research vessel, the RRS Discovery, sailing in the Rockall Trough west of Scotland encountered the largest waves ever recorded by scientific instruments in the open ocean, with a SWH of {{convert|18.5|m|ft}} and individual waves up to {{convert|29.1|m|ft}}.JOURNAL, Were extreme waves in the Rockall Trough the largest ever recorded?, March 2006, 10.1029/2005GL025238, 2006GeoRL..33.5613H, 33, 5, L05613, Geophysical Research Letters, Holliday, Naomi P., "In 2004 scientists using three weeks of radar images from European Space Agency satellites found ten rogue waves, each {{convert|25|m|ft}} or higher."JOURNAL
,weblink
, Observed Statistics of Extreme Waves
, Laird, Anne Marie
, Doctoral Dissertation, Monterey, California Naval Postgraduate School
, December 2006
, 2,
A rogue wave is a natural ocean phenomenon that is not caused by land movement, only lasts briefly, occurs in a limited location, and most often happens far out at sea. Rogue waves are considered rare but potentially very dangerous, since they can involve the spontaneous formation of massive waves far beyond the usual expectations of ship designers, and can overwhelm the usual capabilities of ocean-going vessels which are not designed for such encounters. Rogue waves are therefore distinct from tsunamis. Tsunamis are caused by massive displacement of water, often resulting from sudden movement of the ocean floor, after which they propagate at high speed over a wide area. They are nearly unnoticeable in deep water and only become dangerous as they approach the shoreline and the ocean floor becomes shallower;WEB
,weblink
, Physics of Tsunamis
, 27 January 2016
, NOAA.gov
, 29 January 2016
, US Dept of Commerce
, They can not be felt aboard ships nor can they be seen from the air in the open ocean., therefore tsunamis do not present a threat to shipping at sea (the only ships lost in the 2004 Asian tsunami were in port). They are also distinct from megatsunamis, which are single massive waves caused by sudden impact, such as meteor impact or landslides within enclosed or limited bodies of water. They are also different from the waves described as "hundred-year waves", which is a purely statistical prediction of the highest wave likely to occur in a hundred-year period in a particular body of water.
Rogue waves have now been proven to be the cause of the sudden loss of some ocean-going vessels. Well documented instances include the freighter MS München, lost in 1978 and the MV Derbyshire lost in 1980, the largest British ship ever lost at sea. A rogue wave has been implicated in the loss of other vessels including the Ocean Ranger which was a semi-submersible mobile offshore drilling unit that sank in Canadian waters on 15 February 1982.BOOK
, Royal Commission on the Ocean Ranger Marine Disaster (Canada)
, Safety offshore Eastern Canada, summary of studies & seminars
,weblink
, 1985
, The Commission, In 2007 the US National Oceanic and Atmospheric Administration compiled a catalogue of more than 50 historical incidents probably associated with rogue waves.JOURNAL
, Liu
, Paul C.
, 2007
, A Chronology of Freaque Wave Encounters
, Geofizika
, 24
, 1
, 57–70
,weblink
, October 8, 2012,

History of rogue wave knowledge

missing image!
- Wea00800,1.jpg -
Merchant ship labouring in heavy seas as a huge wave looms ahead, ca. 1940. Huge waves are common near the 100-fathom line in the Bay of Biscay.

Mythical waves

In 1826, French scientist and naval officer Captain Jules Dumont d'Urville reported waves as high as {{convert|33|m|ft|1}} in the Indian Ocean with three colleagues as witnesses, yet he was publicly ridiculed by fellow scientist François Arago. In that era it was widely held that no wave could exceed {{convert|30|ft|m|1}}.BOOK
, Bruce Parker
, The Power of the Sea: Tsunamis, Storm Surges, Rogue Waves, and Our Quest to Predict Disasters
,weblink
, 13 March 2012
, St. Martin's Press
, 978-0-230-11224-7, BOOK
, Ian Jones
, Joyce Jones
, Oceanography in the Days of Sail
, 115
,weblink
, 2008
, Hale & Iremonger
, 978-0-9807445-1-4
, Dumont d'Urville, in his narrative, expressed the opinion that the waves reached a height of 'at least 80 to 100 feet'. In an era when opinions were being expressed that no wave would exceed 30 feet, Dumont d'Urville's estimations were received, it seemed, with some scepticism. No one was more outspoken in his rejection than François Arago, who, calling for a more scientific approach to the estimation of wave height in his instructions for the physical research on the voyage of the Bonité, suggested that imagination played a part in estimations as high as '33 metres' (108 feet). Later, in his 1841 report on the results of the Vénus expedition, Arago made further reference to the 'truly prodigious waves with which the lively imagination of certain navigators delights in covering the seas', Author Susan Casey wrote that much of that disbelief came because there were very few people who had seen a rogue wave, and until the advent of steel double-hulled ships of the 20th century "people who encountered 100-foot rogue waves generally weren't coming back to tell people about it."WEB,weblink "The Wave": The growing danger of monster waves, 26 September 2010, salon.com, 26 March 2018,
For almost 100 years, oceanographers, meteorologists, engineers and ship designers have used a mathematical system commonly called the Gaussian function (or Gaussian Sea or standard linear model) to predict wave height.BOOK
, Carlos Guedes Soares
, T.A. Santos
, Maritime Technology and Engineering
,weblink
, 3 October 2014
, CRC Press
, 978-1-315-73159-9, This model assumes that waves vary in a regular way around the average (so-called 'significant') wave height. In a storm sea with a significant wave height of {{convert|12|m|ft|1}}, the model suggests there will hardly ever be a wave higher than {{convert|15|m|ft|1}}. One of {{convert|30|m|ft|1}} could indeed happen – but only once in ten thousand years (of wave height of {{convert|12|m|ft|1|disp=sqbr}}). This basic assumption was well accepted (and acknowledged to be an approximation). The use of a Gaussian form to model waves has been the sole basis of virtually every text on that topic for the past 100 years.WEB
,weblink
, US Army Engineer Waterways Experimental Station: Coastal Engineering Technical Note CETN I-60
, Chl.erdc.usace.army.mil
, March 1995
,
, April 16, 2016
, yes
,weblink" title="web.archive.org/web/20130221213453weblink">weblink
, February 21, 2013
,
, The first known scientific article on "Freak waves" was written by Professor Laurence Draper in 1964. In that paper which has been described as a 'seminal article' he documented the efforts of the National Institute of Oceanography in the early 1960s to record wave height and the highest wave recorded at that time which was about {{convert|67|ft|m|1}}. Draper also described freak wave holes.JOURNAL
, Draper
, Lawrence
, July 1964
, "Freak" Ocean Waves
,weblink
, Oceanus
, 10
, 4
, 12–15, BOOK
,weblink
, Heavy Weather Powerboating
, Hugo Montgomery-Swan
, Adlard Coles Nautical
, 2010
, 9780713688719
, 33, BOOK
,weblink
, Rogue Waves 2004: Proceedings of a Workshop Organized by Ifremer and Held in Brest, France, 20-21-22 October 2004, Within the Brest Sea Tech Week 2004
, Michel Olagnon, Marc Prevosto
,
, 20 October 2004
,
, VIII, 9782844331502
, JOURNAL
, Draper
, Lawrence
, July 1971
, Severe Wave Conditions at Sea
,weblink
, Journal of the Institute of Navigation
, 24
, 3
, 274–277
, 10.1017/s0373463300048244,

Draupner Wave

In 1995, strong scientific evidence for the existence of rogue waves came with the recording of what has become known as the Draupner wave. The Draupner E is one structure in a gas pipeline support complex operated by Statoil about {{convert|100|miles|km|order=flip}}{{Coord|58|11|19.30|N|2|28|0.00|E|display=inline}} offshore and west by southwest from the southern tip of Norway.WEB, Factpages, Norwegian Petroleum Directorate,weblink Norwegian Petroleum Directorate, 12 September 2016, The Draupner E platform is the first major oil platform of the jacket-type attached to the seabed with a bucket foundation instead of pilings and a suction anchoring system. As a precaution, the operator (Statoil) fitted the platform with an extensive array of instrumentation. The instruments continuously check the platform's movements in particular any movement of the foundations during storm events. The state-of-the-art instrumentation fitted to the platform was able to continuously measure seven key parameters:
  • wave height,
  • wave slope,
  • wave hold,
  • pressure of the bucket foundations,
  • tension in the platform pillars, and
  • acceleration on deck and foundations.
The rig was built to withstand a calculated 1 in 10,000 years wave with a predicted height of {{convert|64|ft|m|1}} and was also fitted with state-of-the-art laser wave recorder on the platform’s underside. At 3 p.m. on 1 January 1995 it recorded an {{convert|85|ft|m|1}} rogue wave (i.e. {{convert|21|ft|m|1|disp=sqbr}} taller than the predicted 10,000 year wave) that hit the rig at {{convert|45|mph|km/h|1}}. This was the first confirmed measurement of a freak wave, more than twice as tall and steep as its neighbors with characteristics that fell outside any known wave model. The wave was recorded by all of the sensors fitted to the platformWEB, Bjarne Røsjø, Kjell Hauge, Proof: Monster Waves are real,weblink ScienceNordic, 2011-11-08, »Draupner E had only been operating in the North Sea for around half a year, when a huge wave struck the platform like a hammer. When we first saw the data, we were convinced it had to be a technological error « says Per Sparrevik. He is the head of the underwater technology, instrumentation and monitoring at the Norwegian NGI. But the data was not wrong. When NGI looked over the measurements and calculated the effect of the wave that had hit the platform, the conclusion was clear: The wave that struck the unmanned platform Draupner E on 1 January 1995 was indeed extreme., and it caused enormous interest in the scientific community.

Modern knowledge

Statoil researchers presented a paper in 2000 which collated evidence that freak waves were not the rare realizations of a typical or slightly non-gaussian sea surface population (Classical extreme waves) but rather they were the typical realizations of a rare and strongly non-gaussian sea surface population of waves (Freak extreme waves).CONFERENCE
,weblink
, Freak waves: rare realizations of a typical population or typical realizations of a rare population?
, Haver S and Andersen O J
, 2010
, Proc. 10th Conf. of Int. Society for Offshore and Polar Engineering (ISOPE)
, ISOPE
, Seattle
, 123–130
, 18 April 2016
,
,weblink" title="web.archive.org/web/20160512192003weblink">weblink
, 2016-05-12
, yes
,
, A workshop of leading researchers in the world attended the first Rogue Waves 2000 workshop held in Brest in November 2000.CONFERENCE
,weblink
, Rogue Waves 2000
,
, 2000
, Ifremer and IRCN organised a workshop on "Rogue waves", Wed. 29th and Thu. 30th November 2000, during SeaTechWeek 2000, Le Quartz, Brest, France.
, iFremer
, Brest
,
, 18 April 2016
,
In 2000 the British oceanographic vessel RRS Discovery recorded a {{convert|29|m|adj=on}} wave off the coast of Scotland near Rockall. This was a scientific research vessel and was fitted with high quality instruments. The subsequent analysis determined that under severe gale force conditions with wind speeds averaging {{convert|21|m/s|ft/s|1}} a ship-borne wave recorder measured individual waves up to {{convert|29.1|m|ft|1}} from crest to trough, and a maximum significant wave height of {{convert|18.5|m|ft|1}}. These were some of the largest waves recorded by scientific instruments up to that time. The authors noted that modern wave prediction models are "known" to significantly under-predict extreme sea states for waves with a 'significant' height (Hs) above {{convert|12|m|ft|1}}. The analysis of this event took a number of years, and noted that "none of the state-of-the-art weather forecasts and wave models—the information upon which all ships, oil rigs, fisheries, and passenger boats rely—had predicted these behemoths." Put simply, a scientific model (and also ship design method) to describe the waves encountered did not exist. This finding was widely reported in the press which reported that "according to all of the theoretical models at the time under this particular set of weather conditions waves of this size should not have existed".WEB
,weblink
, The last word: Terrors of the sea
,
,
, 27 September 2010
, theweek.com
,
, 15 January 2016
, BOOK
, Susan Casey
, The Wave: In the Pursuit of the Rogues, Freaks and Giants of the Ocean
,weblink
, 2010
, Doubleday Canada
, 978-0-385-66667-1, JOURNAL
, Holliday
, N.P.
, Yelland
, M.Y.
, Pascal
, R.
, Swail
, V.
, Taylor
, P.K.
, Griffiths
, C.R.
, Kent
, E.C.
, 2006
, Were extreme waves in the Rockall Trough the largest ever recorded?
, Geophysical Research Letters
, 33
, 5
, L05613
, 2006GeoRL..33.5613H
, 10.1029/2005gl025238
, In February 2000 those onboard a British oceanographic research vessel near Rockall, west of Scotland experienced the largest waves ever recorded by scientific instruments in the open ocean. Under severe gale force conditions with wind speeds averaging 21 ms1 a shipborne wave recorder measured individual waves up to 29.1 m from crest to trough, and a maximum significant wave height of 18.5 m. The fully formed sea developed in unusual conditions as westerly winds blew across the North Atlantic for two days, during which time a frontal system propagated at a speed close to the group velocity of the peak waves. The measurements are compared to a wave hindcast which successfully simulated the arrival of the wave group but underestimated the most extreme waves.,
Most popular texts on oceanography up until the mid 1990s such as that by Pirie made no mention of rogue or freak waves.BOOK
, Robert Gordon Pirie
, Oceanography: Contemporary Readings in Ocean Sciences
,weblink
, 1996, Oxford University Press
, 978-0-19-508768-0, The popular text on Oceanography by Gross (1996) only gave rogue waves a mention and stated that "Under extraordinary circumstances unusually large waves called rogue waves can form" without providing any further detail.BOOK
, M. Grant Gross
, Oceanography
,weblink
, 1 March 1996
, Prentice Hall
, 978-0-13-237454-5, From about 1997 most leading authors acknowledged the existence of rogue waves with the caveat that wave models had been unable to replicate rogue waves. The first scientific research which comprehensively proved that waves exist that are clearly outside the range of Gaussian waves was published in 1997.JOURNAL
, Skourup
, J
, Hansen
, N.-E. O.
, Andreasen
, K. K.
, 1997-08-01
, Non-Gaussian Extreme Waves in the Central North Sea
,weblink
, Journal of Offshore Mechanics and Arctic Engineering
, 119
, 3
, 146
,
, 10.1115/1.2829061
, 15 January 2016
, The area of the Central North Sea is notorious for the occurrence of very high waves in certain wave trains. The short-term distribution of these wave trains includes waves which are far steeper than predicted by the Rayleigh distribution. Such waves are often termed “extreme waves” or “freak waves.” An analysis of the extreme statistical properties of these waves has been made. The analysis is based on more than 12 yr of wave records from the Mærsk Olie og Gas AS operated Gorm Field which is located in the Danish sector of the Central North Sea. From the wave recordings more than 400 freak wave candidates were found. The ratio between the extreme crest height and the significant wave height (20-min value) has been found to be about 1.8, and the ratio between extreme crest height and extreme wave height has been found to be 0.69. The latter ratio is clearly outside the range of Gaussian waves, and it is higher than the maximum value for steep nonlinear long-crested waves, thus indicating that freak waves are not of a permanent form, and probably of short-crested nature. The extreme statistical distribution is represented by a Weibull distribution with an upper bound, where the upper bound is the value for a depth-limited breaking wave. Based on the measured data, a procedure for determining the freak wave crest height with a given return period is proposed. A sensitivity analysis of the extreme value of the crest height is also made., Some research confirms that observed wave height distribution in general follows well the Rayleigh distribution, but in shallow waters during high energy events, extremely high waves are more rare than this particular model predicts.
It is now proven via satellite radar studies that waves with crest to trough heights of {{convert|20|m|ft|1}} to {{convert|30|m|ft|1}}, occur far more frequently than previously thought.CONFERENCE
,weblink
, Extreme Waves and Ship Design
, Craig
, Smith
, 2007
, 10th International Symposium on Practical Design of Ships and Other Floating Structures
, American Bureau of Shipping
, Houston
, 8
, 13 January 2016
, Recent research has demonstrated that extreme waves, waves with crest to trough heights of 20 to 30 meters, occur more frequently than previously thought., It is now known that rogue waves occur in all of the world's oceans many times each day. In 2004 the ESA MaxWave project identified more than ten individual giant waves above {{convert|25|m}} in height during a short survey period of three weeks in a limited area of the South Atlantic. The ESA's ERS satellites have helped to establish the widespread existence of these 'rogue' waves.WEB
,weblink
, Observing the Earth: Ship-Sinking Monster Waves revealed by ESA Satellites
,
,
, 21 July 2004
, www.ESA.int
, ESA
, 14 January 2016
,
Thus acknowledgement of the existence of rogue waves (despite the fact that they cannot plausibly be explained by even state-of-the-art wave statistics) is a very modern scientific paradigm.BOOK
, John H. Steele
, Steve A. Thorpe
, Karl K. Turekian
, Elements of Physical Oceanography: A derivative of the Encyclopedia of Ocean Sciences
,weblink
, 26 August 2009
, Academic Press
, 978-0-12-375721-0, It is now well accepted that rogue waves are a common phenomenon. Professor Akhmediev of the Australian National University, one of the world's leading researchers in this field, has stated that there are about 10 rogue waves in the world's oceans at any moment.WEB
,weblink
, Rogue wave theory to save ships, Anu.edu.au
, 29 July 2015
,
, April 16, 2016, Some researchers have speculated that approximately three of every 10,000 waves on the oceans achieve rogue status, yet in certain spots—like coastal inlets and river mouths—these extreme waves can make up three out of every 1,000 waves because wave energy can be focused.JOURNAL, Janssen, T. T., Herbers, T. H. C., 2009, Nonlinear Wave Statistics in a Focal Zone, Journal of Physical Oceanography, en, 39, 8, 1948–1964, 10.1175/2009jpo4124.1, 0022-3670,
Rogue waves may also occur in lakes. A phenomenon known as the "Three Sisters" is said to occur in Lake Superior when a series of three large waves forms. The second wave hits the ship's deck before the first wave clears. The third incoming wave adds to the two accumulated backwashes and suddenly overloads the ship deck with tons of water. The phenomenon is one of various theories as to the cause of the sinking of the SS Edmund Fitzgerald on Lake Superior in November 1975.Wolff, Julius F. (1979). "Lake Superior Shipwrecks", p. 28. Lake Superior Marine Museum Association, Inc., Duluth, Minnesota, USA. {{Listed Invalid ISBN|0-932212-18-8}}.}}Serious studies of the phenomenon of rogue waves only started about 20–30 years ago and have intensified since about 2005. One of the remarkable features of the rogue waves is that they always appear from nowhere and quickly disappear without a trace. Recent research has suggested that there could also be 'super-rogue waves' which are up to five times the average sea-state. Rogue waves has now become a near universal term given by scientists to describe isolated large amplitude waves, that occur more frequently than expected for normal, Gaussian distributed, statistical events. Rogue waves appear to be ubiquitous in nature and are not limited to the oceans. They appear in other contexts and have recently been reported in liquid helium, in nonlinear optics and in microwave cavities. It is now universally accepted by marine researchers that these waves belong to a specific kind of sea wave, not taken into account by conventional models for sea wind waves.JOURNAL
, Dysthe
, K
, Krogstad
, H
, Müller
, P
, 2008
, Annual Review of Fluid Mechanics
, 287–310
, JOURNAL
, Kharif
, C
, Pelinovsky
, E
, 2003
, Physical mechanisms of the rogue wave phenomenon
,weblink
, European Journal of Mechanics B
, 22
, 6
, 603–634
, 10.1016/j.euromechflu.2003.09.002
, 16 April 2016, 2003EJMF...22..603K, 10.1.1.538.58
, JOURNAL
, Onorato
, M
, Residori
, S
, Bortolozzo
, U
, Montina
, A
, Arecchi
, F
, 10 July 2013
, Rogue waves and their generating mechanisms in different physical contexts
,weblink
, Physics Reports
, 528
, 2
, 47–89
, 10.1016/j.physrep.2013.03.001
, 16 April 2016, 2013PhR...528...47O, JOURNAL
, Slunyaev
, A
, Didenkulova
, I
, Pelinovsky
, E
, November 2011
, Rogue waters
,weblink
, Contemporary Physics
, 52
, 6
, 571–590
, 10.1080/00107514.2011.613256
, 16 April 2016, 1107.5818, 2011ConPh..52..571S,
Researchers at the Australian National University have also recently (2012) proven the existence of rogue wave holes, an inverted profile of a rogue wave. In maritime folk-lore, stories of rogue holes are as common as stories of rogue waves. They follow from theoretical analysis but had never been proven experimentally. In 2012 the ANU published research confirming the existence of rogue wave holes on the water surface observed in a water wave tank.JOURNAL
, Chabchoub
, A
, Hoffmann
, N.P.
, Akhmediev
, N
, 1 February 2012
, Observation of rogue wave holes in a water wave tank
, Journal of Geophysical Research: Oceans
, 117
, C11
, C00J02
, 10.1029/2011JC007636, 2012JGRC..117.0J02C
,
On a smaller scale, kayakers call unpredictable 'exploding waves' caused by wave interaction "clapotis".WEB,weblink Clapotis, 2010, April 2, 2017,

Research efforts

There are a number of research programmes currently underway focussed on rogue waves including:
  • In the course of Project MaxWave, researchers from the GKSS Research Centre, using data collected by ESA satellites, identified a large number of radar signatures that have been portrayed as evidence for rogue waves. Further research is under way to develop better methods of translating the radar echoes into sea surface elevation, but at present this technique is not proven.WEB


, April 2006
,weblink
, Critical review on potential use of satellite date to find rogue waves
, European Space Agency SEASAR 2006 proceedings
, February 23, 2008, PDF, NEWS
, 22 July 2004
,weblink
, Freak waves spotted from space
, BBC News Online
, May 8, 2006,
  • The Australian National University, working in collaboration with Hamburg University of Technology and the University of Turin, have been conducting experiments in nonlinear dynamics to try to explain so-called rogue or killer waves. The "Lego Pirate" video has been widely used and quoted to describe what they call 'super rogue waves' which their research suggests can be up to five times bigger than the other waves around them.WEB


,weblink
, Lego pirate proves, survives, super rogue wave
, Phys.org
,
,
, April 15, 2016, WEB
,weblink
, Maritime security, Homelandsecuritynewswire.com
,
,
, April 15, 2016, WEB
,weblink
, Lego Pirate Proves, Survives, Super Rogue Wave, Scientificcomputing.com
, 2012-04-11
,
, April 15, 2016,
  • European Space Agency continues to do research into rogue waves by radar satellite.NEWSPAPER,weblink Rogue Giants at Sea, The New York Times, July 11, 2006, April 15, 2016, Broad, William J.,
  • US Naval Research Laboratory, the science arm of the Navy and Marine Corps published results of their modelling work in 2015.WEB


,weblink
, Scientists Model Rogue Waves, Maritime-executive.com
,
,
, April 15, 2016, WEB
,weblink
, Mapping a strategy for rogue monsters of the seas
, Thenewstribune.com
,
,
, April 15, 2016
, yes
,weblink" title="web.archive.org/web/20160424005636weblink">weblink
, April 24, 2016
,
,
  • Massachusetts Institute of Technology. Research in this field is ongoing. Two researchers at the Massachusetts Institute of Technology partially supported by the Naval Engineering Education Consortium (NEEC) have considered the problem of short-term prediction of rare, extreme water waves and have developed and published their research on an effective predictive tool of about 25 wave periods. This tool can give ships and their crews a two-to-three minute warning of potentially catastrophic impact allowing crew some time to shut down essential operations on a ship (or offshore platform). The authors cite landing on an aircraft carrier as a prime example.WEB


,weblink
, A new algorithm from MIT could protect ships from 'rogue waves' at sea
, Cio.com
, 25 February 2016
, Katherine Noyes
, April 8, 2016, JOURNAL
,weblink
, Reduced-order precursors of rare events in unidirectional nonlinear water waves
, Journal of Fluid Mechanics
, 790
, 368–388
, 5 January 2016
, Will Cousins and Themistoklis P. Sapsis
, April 8, 2016,


,weblink
, Rogue Waves – National Geographic Society
, Education.nationalgeographic.org
, 3 December 2012
, Stuart Thornton
, April 16, 2016,


,weblink
, Introduction – Nobuhito Mori
, Oceanwave.jp
,
,
, April 15, 2016,


, Freak wave probability higher than thought ' News in Science (ABC Science)
, Abc.net
, 2011-10-05


,
, April 15, 2016,
  • University of Oxford. The Department of Engineering Science has recently (2014) published a comprehensive review of the science of rogue waves.WEB


,weblink
, 'Freak' ocean waves hit without warning, new research shows – ScienceDaily, Https:
,
,
, April 15, 2016, JOURNAL
, The physics of anomalous ('rogue') ocean waves
, Reports on Progress in Physics, 77, 10, 105901, 14 October 2014
, Thomas A A Adcock and Paul H Taylor


, 10.1088/0034-4885/77/10/105901, 25313170,


,weblink
, Monster waves blamed for shipping disasters
, Smh.com
, 11 Aug 2014
, Stephen Ornes
, April 16, 2016,
  • Extreme Seas Project funded by the EU.WEB


,weblink
, European Commission : CORDIS : Projects & Results Service : Periodic Report Summary – EXTREME SEAS (Design for ship safety in extreme seas)
, Cordis.europa.eu
,
,
, April 16, 2016,
  • UmeÃ¥ University. A research group at the UmeÃ¥ University in Sweden in August 2006 showed that normal stochastic wind driven waves can suddenly give rise to monster waves. The nonlinear evolution of the instabilities was investigated by means of direct simulations of the time-dependent system of nonlinear equations.P. K. Shukla, I. Kourakis, B. Eliasson, M. Marklund and L. Stenflo: "Instability and Evolution of Nonlinearly Interacting Water Waves" nlin.CD/0608012, Physical Review Letters (2006)
  • Great Lakes Environmental Research Laboratory. GLERL did research in 2002 which dispelled the long-held contentions that rogue waves were of rare occurrence.WEB


,weblink
, Task Report – NOAA Great Lakes Environmental Research Laboratory – Ann Arbor, MI, USA
, Glerl.noaa.gov
,
,
, April 16, 2016,
  • University of Oslo. Has conducted research into: Crossing sea state and rogue wave probability during the Prestige accident; Nonlinear wind-waves, their modification by tidal currents, and application to Norwegian coastal waters; General Analysis of Realistic Ocean Waves (GROW); Modelling of currents and waves for sea structures and extreme wave events; Rapid computations of steep surface waves in three dimensions, and comparison with experiments; and Very large internal waves in the ocean.WEB


,weblink
, Mechanics – Department of Mathematics
, University of Oslo, The Faculty of Mathematics and Natural Sciences
, 27 January 2016
,
, April 17, 2016,
  • National Oceanography Centre in the United Kingdom.JOURNAL, Alex, Cattrell, Can Rogue Waves Be Predicted Using Characteristic Wave Parameters?, Journal of Geophysical Research: Oceans, 123, 8, 5624–5636, 10.1029/2018JC013958, 2018,
  • Scripps Institute of Oceanography in the United States.JOURNAL, Barnett, T. P., Kenyon, K. E., 1975, Recent advances in the study of wind waves,weblink Reports on Progress in Physics, en, 38, 6, 667, 10.1088/0034-4885/38/6/001, 0034-4885,
  • Ritmare project in Italy.WEB


,weblink
, The RITMARE flagship project
,
, October 11, 2017,

Causes

File:Super Rogue Wave.ogv|thumb|alt=Experimental demonstration of rogue wave generation through nonlinear processes (on a small scale) in a wave tank.|Experimental demonstration of rogue wave generation through nonlinear processes (on a small scale) in a wave tankwave tankFile:Linear evolution of a Gaussian wave envelop.webm|thumb|The linear part solution of the Nonlinear Schrödinger equationSchrödinger equationBecause the phenomenon of rogue waves is still a matter of active research, it is premature to state clearly what the most common causes are or whether they vary from place to place. The areas of highest predictable risk appear to be where a strong current runs counter to the primary direction of travel of the waves; the area near Cape Agulhas off the southern tip of Africa is one such area; the warm Agulhas Current runs to the southwest, while the dominant winds are westerlies. However, since this thesis does not explain the existence of all waves that have been detected, several different mechanisms are likely, with localised variation. Suggested mechanisms for freak waves include the following:
Diffractive focusing :According to this hypothesis, coast shape or seabed shape directs several small waves to meet in phase. Their crest heights combine to create a freak wave.WEB
, April 22, 2005
,weblink
, Rogue Waves
, Ocean Prediction Center
, National Weather Service
, May 8, 2006,


Focusing by currents :Waves from one current are driven into an opposing current. This results in shortening of wavelength, causing shoaling (i.e., increase in wave height), and oncoming wave trains to compress together into a rogue wave. This happens off the South African coast, where the Agulhas Current is countered by westerlies.
Nonlinear effects (modulational instability) :It seems possible to have a rogue wave occur by natural, nonlinear processes from a random background of smaller waves. In such a case, it is hypothesised, an unusual, unstable wave type may form which 'sucks' energy from other waves, growing to a near-vertical monster itself, before becoming too unstable and collapsing shortly after. One simple model for this is a wave equation known as the nonlinear Schrödinger equation (NLS), in which a normal and perfectly accountable (by the standard linear model) wave begins to 'soak' energy from the waves immediately fore and aft, reducing them to minor ripples compared to other waves. The NLS can be used in deep water conditions. In shallow water, waves are described by the Korteweg–de Vries equation or the Boussinesq equation. These equations also have non-linear contributions and show solitary-wave solutions. A small-scale rogue wave consistent with the nonlinear Schrödinger equation (the Peregrine Solution) was produced in a laboratory water tank in 2011.JOURNAL
,weblink
, Science Now
, Ship in Bottle, Meet Rogue Wave in Tub
, Adrian Cho
, 13 May 2011
, 774
, 332
, 6031
, 2011-06-27
, 10.1126/science.332.6031.774-b, In particular, the study of solitons, and especially Peregrine solitons, have supported the idea that non-linear effects could arise in bodies of water.WEB
,weblink
, Math explains water disasters – ScienceAlert
, Sciencealert.com
, 26 August 2010
,
, April 15, 2016, WEB
,weblink
, Bristol University, Bris.ac.uk
, 22 August 2010
,
, April 15, 2016, JOURNAL, Akhmediev, N., Soto-Crespo, J. M., Ankiewicz, A., 2009, How to excite a rogue wave, Physical Review A, 80, 4, 043818, 10.1103/PhysRevA.80.043818, 10261/59738,weblink


Normal part of the wave spectrum :Rogue waves are not freaks at all but are part of normal wave generation process, albeit a rare extremity.
Constructive interference of elementary wavesRogue waves can result from the constructive interference (dispersive and directional focusing) of elementary 3D waves enhanced by nonlinear effects.JOURNAL, Fedele, Francesco, Brennan, Joseph, Ponce de León, Sonia, Dudley, John, Dias, Frédéric, 2016-06-21, Real world ocean rogue waves explained without the modulational instability,weblink Scientific Reports, en, 6, 27715, 10.1038/srep27715, 2045-2322, 4914928, 27323897, 2016NatSR...627715F,
Wind wave interactions :While it is unlikely that wind alone can generate a rogue wave, its effect combined with other mechanisms may provide a fuller explanation of freak wave phenomena. As wind blows over the ocean, energy is transferred to the sea surface. When strong winds from a storm happen to blow in the opposing direction of the ocean current the forces might be strong enough to randomly generate rogue waves. Theories of instability mechanisms for the generation and growth of wind waves—although not on the causes of rogue waves—are provided by PhillipsPhillips 1957, Journal of Fluid Mechanics and Miles.Miles, 1957, Journal of Fluid Mechanics
Thermal expansion :When a stable wave group in a warm water column moves into a cold water column the size of the waves must change because energy must be conserved in the system. So each wave in the wave group become smaller because cold water holds more wave energy based on density. The waves are now spaced farther apart and because of gravity they will propagate into more waves to fill up the space and become a stable wave group. If a stable wave group exists in cold water and moves into a warm water column the waves will get larger and the wavelength will be shorter. The waves will seek equilibrium by attempting to displace the waves amplitude because of gravity. However, by starting with a stable wave group the wave energy can displace toward the center of the group. If both the front and back of the wave group are displacing energy toward the center it can become a rogue wave. This would happen only if the wave group is very large.{{citation needed|date=September 2016}}
The spatio-temporal focusing seen in the NLS equation can also occur when the nonlinearity is removed. In this case, focusing is primarily due to different waves coming into phase, rather than any energy transfer processes. Further analysis of rogue waves using a fully nonlinear model by R.H. Gibbs (2005) brings this mode into question, as it is shown that a typical wavegroup focuses in such a way as to produce a significant wall of water, at the cost of a reduced height.A rogue wave, and the deep trough commonly seen before and after it, may last only for some minutes before either breaking, or reducing in size again. Apart from one single rogue wave, the rogue wave may be part of a wave packet consisting of a few rogue waves. Such rogue wave groups have been observed in nature.Frederic-Moreau. The Glorious Three, translated by M. Olagnon and G.A. Chase / Rogue Waves-2004, Brest, FranceThere are three categories of freak waves:
  • "Walls of water" travelling up to {{Convert|10|km|mi|abbr=on|0}} through the ocean{{Citation needed | date = February 2011}}
  • "Three Sisters", groups of three wavesEndeavour or Caledonian Star report, March 2, 2001, {{Coord|53|03|S|63|35|W|}}
  • Single, giant storm waves, building up to fourfold the storm's waves height and collapsing after some secondsMS Bremen report, February 22, 2001, {{Coord|45|54|S|38|58|W|}}

Scientific applications

The possibility of the artificial stimulation of rogue wave phenomena has attracted research funding from DARPA, an agency of the United States Department of Defense. Bahram Jalali and other researchers at UCLA studied microstructured optical fibers near the threshold of soliton supercontinuum generation and observed rogue wave phenomena. After modelling the effect, the researchers announced that they had successfully characterized the proper initial conditions for generating rogue waves in any medium.JOURNAL
, R. Colin Johnson
, EEs Working With Optical Fibers Demystify 'Rogue Wave' Phenomenon
, Electronic Engineering Times
, December 24, 2007, 1507
, 14, 16
,weblink Additional works carried out in optics have pointed out the role played by a nonlinear structure called Peregrine soliton that may explain those waves that appear and disappear without leaving a trace.JOURNAL
, Kibler, B.
, Fatome
, J.
, Finot
, C.
, Millot
, G.
, Dias
, F.
, Genty
, G.
, Akhmediev
, N.
, Dudley, J.M.
, 2010
, The Peregrine soliton in nonlinear fibre optics
, Nature Physics
, 10.1038/nphys1740
, 6
, 10
, 2010NatPh...6..790K
, 790–795, 10.1.1.222.8599
, WEB
, Peregrine's 'Soliton' observed at last
, bris.ac.uk
,weblink
, 2010-08-24,

Reported encounters

It should be noted that many of these encounters are only reported in the media, and are not examples of open ocean rogue waves. Often, in popular culture, an endangering huge wave is loosely denoted as a rogue wave, while it has not been (and most often cannot be) established that the reported event is a rogue wave in the scientific sense — i.e. of a very different nature in characteristics as the surrounding waves in that sea state and with very low probability of occurrence (according to a Gaussian process description as valid for linear wave theory).This section lists a limited selection of notable incidents.

19th century

  • Eagle Island lighthouse (1861) – water broke the glass of the structure's east tower and flooded it, implying a wave that surmounted the {{convert|40|m|ft|abbr=on}} cliff and overwhelmed the {{convert|26|m|ft|abbr=on}} tower.WEB


,weblink
, Eagle Island Lighthouse
, Commissioners of Irish Lights
, 28 October 2010,
  • Flannan Isles Lighthouse (1900) – three lighthouse keepers vanished after a storm that resulted in wave-damaged equipment being found {{Convert|34|m|ft}} above sea level.{{Haswell-Smith| 329–31}}Munro, R.W. (1979) Scottish Lighthouses. Stornoway. Thule Press. {{ISBN|0-906191-32-7}}. Munro (1979) pages 170–1

20th century

  • SS Kronprinz Wilhelm, September 18, 1901 – The most modern German ocean liner of its time (winner of the Blue Riband) was damaged on its maiden voyage from Cherbourg to New York by a huge wave. The wave struck the ship head-on.The New York Times, September 26, 1901, p. 16
  • SS Waratah (1909) – Left Durban, South Africa with 211 passengers and crew but did not reach Cape Town, South Africa.
  • RMS Lusitania (1910) - On the night of 10 January 1910, a {{Convert|75|ft|m|sp=us}} wave struck the ship over the bow, the forecastle deck was damaged and the bridge windows were smashed.WEB,weblink Freaque Waves: The encounter of RMS Lusitania, Freaquewaves, 17 December 2009, freaquewaves.blogspot.com, 26 March 2018,
  • Voyage of the James Caird (1916) – Sir Ernest Shackleton encountered a wave he termed "gigantic" while piloting a lifeboat/whaler from Elephant Island to South Georgia Island.WEB,weblink Archived copy, 2010-01-10, yes,weblink" title="web.archive.org/web/20090106002536weblink">weblink 2009-01-06, , Müller, et al., "Rogue Waves," 2005
  • USS Ramapo (AO-12) (1933) – Triangulated at {{Convert|112|ft|m|sp=us}}.Rogue Giants at Sea, Broad, William J, New York Times, July 11, 2006
  • {{RMS|Queen Mary}} (1942) – Broadsided by a {{Convert|92|ft|m|adj=on}} wave and listed briefly about 52 degrees before slowly righting.
  • {{SS|Flying Enterprise}} (1951) – Ripped apart amidships and eventually sank {{Convert|40|mi}} from Falmouth, England.
  • SS Michelangelo (1966) – Hole torn in superstructure, heavy glass smashed {{Convert|80|ft|m}} above the waterline, and three deaths.
  • {{SS|Edmund Fitzgerald}} (1975) – Lost on Lake Superior. A Coast Guard report blamed water entry to the hatches, which gradually filled the hold, or alternatively errors in navigation or charting causing damage from running onto shoals. However, another nearby ship, the {{SS|Arthur M. Anderson}}, was hit at a similar time by two rogue waves and possibly a third, and this appeared to coincide with the sinking around ten minutes later.
  • {{MS|München}} (1978) – Lost at sea leaving only "a few bits of wreckage" and signs of sudden damage including extreme forces {{Convert|66|ft|m}} above the water line. Although more than one wave was probably involved, this remains the most likely sinking due to a freak wave.
  • Esso Languedoc (1980) – A {{convert|25|to|30|m|ft|adj=on|-1}} wave washed across the deck from the stern of the French supertanker near Durban, South Africa, and was photographed by the first mate, Philippe Lijour."Ship-sinking monster waves revealed by ESA satellites", ESA News, July 21, 2004, accessed June 18, 2010 weblinkWEB, Kastner, Jeffrey, Sea Monsters,weblink Cabinet Magazine, 10 October 2017,
  • Fastnet Lighthouse – Struck by {{convert|48|m|ft|abbr=on}} wave in 1985 "The Story of the Fastnet – The Economist Magazine December 18th 2008" weblink
  • {{MV|Derbyshire}} (1980) – A 91,655 GRT bulk freighter – the largest British ship ever lost at sea – disappears without trace during Typhoon Orchid on 9 September 1980, with the loss of 44 lives. The wreck was located and extensively surveyed in 1994. One subsequent analysis (which won the 2001 Royal Institution of Naval Architects award for excellence) demonstrated that given the weather conditions pertaining, Derbyshire would almost certainly have encountered waves of at least {{Convert|28|m|ft}}, and that even a much smaller rogue wave would have easily destroyed one or more of Derbyshire{{'}}s cargo hatch covers, leading to the rapid loss of the ship.WEB, Faulkner, Douglas, An Independent Assessment of the Sinking of the MV DERBYSHIRE,weblink Royal Institution of Naval Architects, 10 October 2017,
  • Draupner wave (North Sea, 1995) – First rogue wave confirmed with scientific evidence, it had a maximum height of {{convert|25.6|m|ft}}.WEB,weblink Ship-sinking monster waves revealed by ESA satellites, esa, esa.int, 26 March 2018,
  • {{RMS|Queen Elizabeth 2}} (1995) – Encountered a {{Convert|29|m|ft|adj = on}} wave in the North Atlantic, during Hurricane Luis: The Master said it "came out of the darkness" and "looked like the White Cliffs of Dover." WEB,weblink Freak waves, bot: unknown,weblink" title="web.archive.org/web/20080414151343weblink">weblink 2008-04-14,  {{small|(1.07 MiB)}}, Beacon 185, Skuld, June 2005 Newspaper reports at the time described the cruise liner as attempting to "surf" the near-vertical wave in order not to be sunk.

21st century

  • {{MS|Bremen}} and Caledonian Star (South Atlantic, 2001) encountered {{Convert|30|m|ft|adj=on}} freak waves. Bridge windows on both ships were smashed, and all power and instrumentation lost.{{dead link | date = August 2014}}
  • U.S. Naval Research Laboratory ocean-floor pressure sensors detected a freak wave caused by Hurricane Ivan in the Gulf of Mexico, 2004. The wave was around {{Convert|27.7|m|ft}} high from peak to trough, and around {{Convert|200|m|ft}} long.Hurricane Ivan prompts rogue wave rethink, The Register, 5 August 2005 Their computer models also indicated that waves may have exceeded 40 meters(130 ft) in the eyewall.WEB,weblink NRL Measures Record Wave During Hurricane Ivan - U.S. Naval Research Laboratory, 2017-02-17, www.nrl.navy.mil, 26 March 2018,
  • Norwegian Dawn, (Georgia [US], 2005) On April 16, 2005, after sailing into rough weather off the coast of Georgia, Norwegian Dawn encountered a series of three {{convert|70|ft|m|0|adj=on}} rogue waves. The third wave damaged several windows on the 9th and 10th decks and several decks were flooded. Damage, however, was not extensive and the ship was quickly repaired.Reuters (April 18, 2005). Freak wave pummels cruise ship. Four passengers were slightly injured in this incident.WEB


,weblink
,weblink" title="web.archive.org/web/20090308010101weblink">weblink
, NTSB – Brief MAB-05/03
,
,
,
,
,
, 2009-03-08
, yes
, 2009-03-08,
  • Aleutian Ballad, (Bering Sea, 2005) footage of what is identified as a {{convert|60|ft|m|0|adj=on}} wave appears in an episode of Deadliest Catch. The wave strikes the ship at night and cripples the vessel, causing the boat to tip for a short period onto its side. This is one of the few video recordings of what might be a rogue wave.Deadliest Catch Season 2, Episode 4 "Finish Line" Original airdate: April 28, 2006; approx time into episode: 0:40:00–0:42:00. Edited footage viewable online at Discovery.com {{webarchive|url=https://web.archive.org/web/20090806051946weblink |date=2009-08-06 }}
  • In 2006, researchers from U.S. Naval Institute theorise rogue waves may be responsible for the unexplained loss of low-flying aircraft, such as U.S. Coast Guard helicopters during Search and Rescue missions.WEB,weblink Monster waves threaten rescue helicopters,  {{small|(35.7 KiB)}}, U.S. Naval Institute, December 15, 2006
  • On January 24, 2009 the Augusto González de Linares buoy, located 22 miles north of Santander, Spain reported a wave of {{convert|26.13|m|ft|1}}, equivalent to 8 floors high, during a storm.NEWS


,weblink
, Olas de récord en Cantabria
, El Diario Montañés
, 3 February 2009,


,weblink
, Dos muertos y 16 heridos por una ola gigante en un crucero con destino a Cartagena
, La Vanguardia
, 3 March 2010, NEWS
,weblink
, Giant rogue wave slams into ship off French coast, killing 2
, FoxNews
, 3 March 2010,
  • The Spanish Deepwater Buoys Network, in January 2014, measured a wave height of {{convert|27.81|m}}. The data was taken at the buoy Vilán-Sisargas (Cape Vilan) in Galicia (Spain) during the winter storms, which were particularly severe in Atlantic waters.NEWS


,weblink
, Nuevo récord de altura de ola máxima registrada en España
, Puertos del Estado
, 21 October 2014,
  • MS Marco Polo was struck by a rogue wave on the English Channel (February 2014). An 85-year-old man was killed and a woman in her 70s injured.NEWS


, Jivanda
, Tomas
, UK weather: Man killed after huge wave breaks window of cruise ship Marco Polo in English Channel as storms set to continue
,weblink
, 17 February 2014
, The Independent
, 15 February 2014,

Quantifying the impact of rogue waves on ships

The loss of the MS München in 1978 provided some of the first physical evidence of the existence of rogue waves. The MS München was a state-of-the-art cargo ship with multiple water-tight compartments, an expert crew and was considered unsinkable. She was lost with all crew and the wreck has never been found. The only evidence found was the starboard lifeboat which was recovered from floating wreckage some time later. The lifeboats hung from forward and aft blocks {{convert|20|m|ft}} above the waterline. The pins had been bent back from forward to aft, indicating the lifeboat hanging below it had been struck by a wave that had run from fore to aft of the ship which had torn the lifeboat from the ship. To exert such force the wave must have been considerably higher than {{convert|20|m|ft}}. At the time of the inquiry, the existence of rogue waves was considered so statistically unlikely as to be near impossible. Consequently, the Maritime Court investigation concluded that the severe weather had somehow created an 'unusual event' that had led to the sinking of the München.WEB
,weblink
, Freak Wave – programme summary
,
,
, 14 November 2002
, www.bbc.co.uk/
, BBC
, 15 January 2016
, BOOK
, Keith McCloskey
, The Lighthouse: The Mystery of the Eilean Mor Lighthouse Keepers
,weblink
, 15 July 2014
, History Press Limited
, 978-0-7509-5741-0,
The 1980 loss of the MV Derbyshire during Typhoon Orchid south of Japan with the loss of all crew marked a turning point for ship design. The Derbyshire was an ore-bulk-oil combination carrier built in 1976. At 91,655 gross register tons, she was—and remains—the largest British ship ever to have been lost at sea. The wreck was found in June 1994. The survey team deployed a remotely operated vehicle to photograph the wreck. A private report was published in 1998 which prompted the British government to reopen a formal investigation into the sinking. The British government investigation included a comprehensive survey by the Woods Hole Oceanographic Institution which took 135,774 pictures of the wreck during two surveys. The formal forensic investigation concluded that the ship sank because of structural failure and absolved the crew of any responsibility. Most notably, the report determined the detailed sequence of events that led to the structural failure of the vessel. A third comprehensive analysis was subsequently done by Douglas Faulkner, professor of marine architecture and ocean engineering at the University of Glasgow. His highly analytical and scientific report published in 2001 examined and linked the loss of the MV Derbyshire with what he called the emerging body of scientific evidence regarding the mechanics of freak waves. Professor Faulkner concluded that it was almost certain that Derbyshire would have encountered a wave of sufficient size to destroy her. Faulkner's conclusions have not been refuted in the more than 15 years since they were first presented (as of 2016). Indeed, subsequent analysis by others has corroborated his findings. Faulkner's finding that the Derbyshire was lost because of a rogue wave has had widespread implications on ship design. Faulkner has subsequently proposed the need for a paradigm shift in thinking for the design of ships and offshore installations to include what he calls a Survival Design approach additional to current design requirements. There is however no evidence that his recommendations have yet been adopted (as of 2016).CONFERENCE
,weblink
, Rogue Waves – Defining Their Characteristics for Marine Design
, Douglas
, Faulkner
, 2000
, Rogue Waves 2000 Workshop
, French Research Institute for Exploitation of the Sea
, Brest
, 16
, 15 January 2016
, This paper introduces the need for a paradigm shift in thinking for the design of ships and offshore installations to include a Survival Design approach additional to current design requirements., WEB
,weblink
, The Loss of the 'DERBYSHIRE'
, Brown
, David
, 1998
, Crown
, Technical Report,
HANSARD
, House of Commons
, Ships and Seafarers (Safety)
,weblink
, 25 June 2002
, 193WH
, 215WH
, The MV Derbyshire was registered at Liverpool and, at the time, was the largest ship ever built: it was twice the size of the Titanic., WEB
,weblink
, Navigation for the Derbyshire Phase2 Survey
, Lerner
, S.
, Yoerger
, D.
, Crook
, T.
, May 1999

, Woods Hole Oceanographic Institution MA
, 28
, Technical Report
, WHOI-99-11
, In 1997, the Deep Submergence Operations Group of the Woods Hole Oceanographic Institution conducted an underwater forensic survey of the UK bulk carrier MV Derbyshire with a suite of underwater vehicles. This report describes the navigation systems and methodologies used to precisely position the vessel and vehicles. Precise navigation permits the survey team to control the path of the subsea vehicle in order to execute the survey plan, provides the ability to return to specific targets, and allows the assessment team to correlate observations made at different times from different vehicles. In this report, we summarize the techniques used to locate Argo as well as the repeatability of those navigation fixes. To determine repeatability, we selected a number of instances where the vehicle lines crossed. By registering two images from overlapping areas on different tracklines, we can determine the true position offset. By comparing the position offset derived from the images to the offsets obtained from navigation, we can determine the navigation error. The average error for 123 points across a single tie line was 3.1 meters, the average error for a more scattered selection of 18 points was 1.9 meters.
, WHOI-99-11,
In 2004 an extreme wave was recorded impacting the Admiralty Breakwater, Alderney in the Channel Islands. This breakwater is exposed to the Atlantic Ocean. The peak pressure recorded by a shore-mounted transducer was 745 kPa which corresponds to a pressure of 74.5 tonnes/m2 or 74.5 Mt/m2 (metric tonnes per square metre). This pressure far exceeds almost any design criteria for modern ships and this wave would have destroyed almost any merchant vessel.WEB
,weblink
, Rogue Waves: The Fourteenth 'Aha Huliko'A Hawaiian Winter Workshop
, Soest.hawaii.edu
, 3 September 2005
, Oceanography
, 18
, 3
, 66–70
,
, April 16, 2016,
More recent work by Smith in 2007 confirmed prior forensic work by Faulkner in 1998 and determined that the MV Derbyshire was exposed to a hydrostatic pressure of a static head of water of about {{convert|20|m|ft}} with a resultant static pressure of 201 kN/m2.A failure load pressure of 201 kN/m2 is the same as 20,500 kgf/m2 or 20.5 Mt/m2 (metric tonnes per square metre). This is in effect 20 metres of green water (possibly a super rogue wave)Note that the term super rogue wave had not yet been coined by ANU researchers at that time. flowing over the vessel. The deck cargo hatches on the Derbyshire were determined to be the key point of failure when the rogue wave washed over the ship. The design of the hatches only allowed for a static pressure of less than two metres of water or 17.1 kN/m2,A design load pressure (of the hatches) of 17.1 kN/m2 is the same as 1,744 kgf/m2 or 1.7 Mt/m2 (metric tonnes per square metre). in other words the typhoon load on the hatches was more than ten (10) times the design load. The forensic structural analysis of the wreck of the Derbyshire is now widely regarded as irrefutable.In addition fast moving waves are now known to also exert extremely high dynamic pressure. It is known that plunging or breaking waves can cause short-lived impulse pressure spikes called Gifle peaks. These can reach pressures of 200 kN/m2 (or more) for milliseconds which is sufficient pressure to lead to brittle fracture of mild steel. Evidence of failure by this mechanism was also found on the Derbyshire.BOOK
, Faulkner
, Douglas
, 1998
, An Independent Assessment of the Sinking of the M.V. Derbyshire
,weblink
,weblink" title="web.archive.org/web/20160418161247weblink">weblink
, yes
, 2016-04-18
,
, SNAME Transactions, Royal Institution of Naval Architects
, 59–103
,
, The author's starting point therefore was to look for an extraordinary cause. He reasoned that nothing could be more extraordinary than the violence of a fully arisen and chaotic storm tossed sea. He therefore studied the meteorology of revolving tropical storms and freak waves and found that steep elevated waves of 25 m to 30 m or more were quite likely to have occurred during typhoon Orchid.
, Smith has documented scenarios where hydrodynamic pressure of up to 5,650 kN/m2 or over 500 metric tonnes per square metre could occur.A hydrostatic pressure of 5,650 kN/m2 is the same as 576,100 kgf/m2 or 576.1 Mt/m2 (metric tonnes per square metre).

Ship failure mechanism

Very few ship-wrecks have ever been fully investigated. The most recent bulk-carrier loss on the open seas to have been subjected to thorough investigation (as at March 2011) was the UK-owned M.V. Derbyshire, which sank in 1980. Its entire crew of forty-four, all British citizens, perished. It took 14 years of pressure from the British public and a privately funded expedition to locate the wreck before a formal remote-camera search and investigation was done by the British government. At least a couple of hundred bulk carriers have been lost since 1980 and none have been properly investigated.{{citation needed|date=August 2017}} A survey of 125 bulk carriers that sank between 1963 and 1996 found that seventy-six probably flooded, another four because of hatch-cover failure, the rest from unidentified causes. Nine other vessels broke completely in two. Causes of the remaining forty losses are unknown.WEB
,weblink
, Inside the Lethal World of Bulk Carriers: Death Trips on the Seven Seas
, Coldtype.net
,
,
, April 17, 2016,
Montgomery-Swan has outlined the generic mechanism of ship failure when encountering a rogue wave:The scenario is very simple: the weight of the ship accelerates her down the back slope of the previous wave, the bow sticks into the lower part of the front of the giant incoming wave, and thousands of tons of green water fall onto the fore part of the ship. What happens next depends on the structure of the vessel.Professor Faulkner who did the forensic independent analysis of the loss of the M.V. Derbyshire explains why this is such a problem for bulk carriers. He states that "It is quite possible that some of the many unexplained heavy weather losses (of bulk carriers) may have been caused by hatch cover or coaming failures because fore end plunging due to flooding of large holds can be rapid." He noted in his report that "because of their high inertias and natural pitch periods, these large ships do not rise to the waves, as appropriately experienced masters have confirmed. They tend to bury into them." Faulkner concluded that "beyond any reasonable doubt, the direct cause of the loss of the M.V. Derbyshire was the quite inadequate strength of her cargo hatch covers to withstand the forces of Typhoon Orchid." He also noted that "It is not possible to say which of the eighteen covers failed first, or from which direction the waves came; but evidence and other arguments suggest that the no. 1 hatch covers were probably the first to yield, probably from waves over the bow with the ship hove-to."

Design standards

In November 1997 the International Maritime Organization (IMO) adopted new rules covering survivability and structural requirements for bulk carriers of {{convert|150|m|ft|1}} and upwards. The bulkhead and double bottom must be strong enough to allow the ship to survive flooding in hold one unless loading is restricted.WEB
, Improving the safety of bulk carriers
, IMO
,weblink
,weblink
, yes
, 2009-07-07
, 2009-08-11
, It is now widely held that rogue waves present considerable danger for several reasons: they are rare, unpredictable, may appear suddenly or without warning, and can impact with tremendous force. A {{convert|12|m|adj=on}} wave in the usual "linear" model would have a breaking force of {{convert|6|MT/m2|psi|abbr=~}}. Although modern ships are designed to (typically) tolerate a breaking wave of 15 MT/m2, a rogue wave can dwarf both of these figures with a breaking force far exceeding 100 MT/m2.Note that MT/m refers to metric tonnes per square metre. Smith has presented calculations using the International Association of Classification Societies (IACS) Common Structural Rules (CSR) for a typical bulk carrier which are consistent.Smith has presented calculations for a hypothetical bulk carrier with a length of 275m and a displacement of 161,000 metric tonnes, the design Hydrostatic pressure, 8.75 m below waterline is 88 kN/m2 or 88 kPa or 8.9 MT/m2 (metric tonnes per square metre). For the same carrier the design Hydrodynamic pressure is 122 kN/m2 or 122 kPa or 12,440 kgf/m2 (kilograms of force per square metre) or 12.44 Mt/m2 (metric tonnes per square metre).Peter Challenor, a leading scientists in this field from the National Oceanography Centre in the United Kingdom was quoted in Casey's book in 2010 that "We don’t have that random messy theory for nonlinear waves. At all", he says. "People have been working actively on this for the past 50 years at least. We don’t even have the start of a theory".In 2006 Smith proposed that the International Association of Classification Societies (IACS) recommendation 34 pertaining to standard wave data be modified so that the minimum design wave height be increased to {{convert|65|ft|m|1}}. He presented analysis that there was sufficient evidence to conclude that {{convert|66|ft|m|1}} high waves can be experienced in the 25-year lifetime of oceangoing vessels, and that {{convert|98|ft|m|1}} high waves are less likely, but not out of the question. Therefore, a design criterion based on {{convert|36|ft|m|1}} high waves seems inadequate when the risk of losing crew and cargo is considered. Smith has also proposed that the dynamic force of wave impacts should be included in the structural analysis.BOOK, Smith
, Craig
, 2006
, Extreme Waves
,weblink
,
, Joseph Henry Press
,
, 9780309100625
, There is sufficient evidence to conclude that 66-foot high waves can be experienced in the 25-year lifetime of oceangoing vessels, and that 98-foot high waves are less likely, but not out of the question. Therefore a design criterion based on 36-foot high waves seems inadequate when the risk of losing creq and cargo is considered.,
It is notable that the Norwegian offshore standards now take into account extreme severe wave conditions and require that a 10,000-year wave does not endanger the ships integrity. Rosenthal notes that as at 2005 rogue waves were not explicitly accounted for in Classification Societies’ Rules for ships’ design.WEB
,weblink
, Results of the MAXWAVE project
, Rosenthal
, W
, 2005
, www.soest.hawaii.edu
,
, 14 January 2016
, The Norwegian offshore standards take into account extreme severe wave conditions by requiring that a 10,000-year wave does not endanger the structure’s integrity (Accidental Limit State, ALS)., As an example, DNV GL, one of the world's largest international certification body and classification society with main expertise in technical assessment, advisory, and risk management publishes their Structure Design Load Principles which remain largely based on the 'Significant Wave height' and as at January 2016 still has not included any allowance for rogue waves.WEB
,weblink
,weblink" title="web.archive.org/web/20140912042308weblink">weblink
, yes
, 2014-09-12
, Rules for Classification and Construction
,
,
, 2011
, www.gl-group.com/
, Germanischer Lloyd SE
, Hamburg, Germany
, 13 January 2016
, General Terms and Conditions of the respective latest edition will be applicable. See Rules for Classification and Construction, I – Ship Technology, Part 0 – Classification and Surveys.
, The U.S. Navy historically took the design position that the largest wave likely to be encountered was 21.4 m (70 ft). Smith observed in 2007 that the navy now believes that larger waves can occur and the possibility of extreme waves that are steeper (i.e. do not have longer wavelengths) is now recognized. The navy has not had to make any fundamental changes in ship design as a consequence of new knowledge of waves greater than 21.4 m (70 ft) because they build to higher standards.A characteristic of the shipping industry is that there are no uniform codes or international standards. There are more than 50 classification societies worldwide, each has different rules. Ship design has historically largely been led by the ship insurers who inspected, classified and insured vessels. Hence the widespread adoption of new rules to allow for the existence of rogue waves is likely to take many years.

See also

{{Col-begin}}{{Col-1-of-2}}
Oceanography, currents and regions:
{{Col-2-of-2}}
Waves:
{{col-end}}

Footnotes

{{Reflist| 30em | group="nb"}}

References

{{Reflist| 30em }}

Further reading

{{Ref begin}}
  • JOURNAL


, Rogue Waves – Monsters of the deep
, The Economist
, September 17, 2009
, 94,
  • BOOK


, The Wave: In Pursuit of the Rogues, Freaks and Giants of the Ocean
,weblink
, Susan Casey
, Anchor Canada
, 2011
, 978-0-385-66668-8,
  • BOOK


, Extreme Waves
,weblink
, Craig B. Smith
, Joseph Henry Press, Washington, D.C.
, 2006
, 978-0-309-10062-5,
  • BOOK


, Rogue Waves in the Ocean
,weblink
, Christian Kharif
, Efim Pelinovsky
, Alexey Slunyaev
, 11 December 2008
, Springer Science & Business Media
, 978-3-540-88419-4,
  • BOOK


, Waves in Geophysical Fluids: Tsunamis, Rogue Waves, Internal Waves and Internal Tides
,weblink
, John Grue
, Karsten Trulsen
, 15 February 2007
, Springer Science & Business Media
, 978-3-211-69356-8,
  • BOOK


, Extreme Ocean Waves
,weblink
, Efim Pelinovsky
, Christian Kharif
, 2 September 2015
, Springer
, 978-3-319-21575-4,
  • BOOK


, The Power of the Sea: Tsunamis, Storm Surges, Rogue Waves, and Our Quest to Predict Disasters
,weblink
, Bruce Parker
, 13 March 2012
, St. Martin's Press
, 978-0-230-11224-7,
  • BOOK


, The Science of Ocean Waves: Ripples, Tsunamis, and Stormy Seas
,weblink
, J. B. Zirker
, 5 November 2013
, JHU Press
, 978-1-4214-1079-1,
  • BOOK


, Nonlinear Ocean Waves & the Inverse Scattering Transform
,weblink
, Alfred Osborne
, 7 April 2010
, Academic Press
, 978-0-08-092510-3,
  • BOOK


, Ocean Engineering Mechanics: With Applications
,weblink
, Michael E. McCormick
, 2010
, Cambridge University Press
, 978-0-521-85952-3,
{{Ref end}}

External links

{{wiktionary}}{{Commons category|Rogue waves}}

Extreme seas project

MaxWave report and WaveAtlas

Other



,weblink
, Freak waves, rogue waves, extreme waves and ocean wave climate
, Kristian B. Dysthe
, Kristian B. Dysthe
, Harald E. Krogstad
, Hervé Socquet-Juglard
, Karsten Trulsen
, 2008-11-01
, yes
,weblink" title="web.archive.org/web/20081112065248weblink">weblink
, 2008-11-12
,
, Illustrations of the ways rogue waves can form — with descriptions for layman, photos and animations.
{{Physics-footer}}{{physical oceanography}}

- content above as imported from Wikipedia
- "Rogue wave" does not exist on GetWiki (yet)
- time: 7:36pm EST - Tue, Dec 11 2018
[ this remote article is provided by Wikipedia ]
LATEST EDITS [ see all ]
GETWIKI 09 MAY 2016
GETWIKI 18 OCT 2015
M.R.M. Parrott
Biographies
GETWIKI 20 AUG 2014
GETWIKI 19 AUG 2014
GETWIKI 18 AUG 2014
Wikinfo
Culture
CONNECT