Mac (Green Wing) and Cavitation: Difference between pages

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{{Inappropriate tone|date=December 2007}}
{{Infobox character
[[Image:cavitating-prop.jpg|thumb|266px|right|Cavitating propeller model in a [[Water tunnel (hydrodynamic)|water tunnel]] experiment]]
| colour = #6ef7a7
[[Image:Cavitation bubble implosion.png|right|frame|High speed jet of fluid impact on a fixed surface.]]
| name = Dr. Macartney
[[Image:Cavitation.jpg|thumb|266px|Cavitation damages on a valve plate for an axial piston [[hydraulic pump]].]]
| image = [[Image:Dr. Macartney - Green Wing - Series 1.jpg|300px|center|{{deletable image-caption|1=Sunday, 6 April 2008}}]]
'''Cavitation''' is defined as the phenomenon of formation of vapour bubbles of a flowing liquid in a region where the pressure of the liquid falls below its vapour pressure. Cavitation is usually divided into two classes of behavior: inertial (or transient) cavitation and non-inertial cavitation. Inertial cavitation is the process where a void or bubble in a liquid rapidly collapses, producing a shock wave. Such cavitation often occurs in pumps, propellers, [[impeller]]s, and in the vascular tissues of plants. Non-inertial cavitation is the process in which a bubble in a fluid is forced to oscillate in size or shape due to some form of energy input, such as an [[sound|acoustic field]]. Such cavitation is often employed in [[ultrasonic cleaning]] baths and can also be observed in pumps, propellers etc.
| first = Caroline's First Day
| last = The Special
| nickname = Mac
| gender = Male
| occupation = Surgeon
| title = Doctor
| episode = 20
| portrayer = [[Julian Rhind-Tutt]]
}}
'''Mac''' is a character in the [[United Kingdom|British]] [[sitcom]] ''[[Green Wing]]'', played by [[Julian Rhind-Tutt]].


== History ==
==Inertial cavitation==
Inertial cavitation was first studied by [[Lord Rayleigh]] in the late 19th century when he considered the collapse of a spherical void within a liquid.
Mac is a surgeon working in the [[East Hampton Hospital Trust]]. His early life is not well known - quite a lot about it is a total mystery, and even his first name is unknown (though in series 2, episode 4, his former girlfriend Holly reveals that her nickname for him was once "Paul", while Mac's nickname for Holly was "John", as in [[Paul McCartney]] and [[John Lennon]]). His relationship with Holly lasted for six years, but they split up four years ago when she told Mac that she was going to abort their baby as it would be a "spanner in the works". She has since got married and is expecting a child. However, Holly has now left her husband and has returned to the hospital as a [[paediatrics]] [[specialist registrar|registrar]]. She also tried to get back into a relationship with Mac by lying about her abortion, claiming that she never had it. She also tells Mac that that they now have a son, Mackenzie, who is four years old and has the same kind of hair as Mac. This was later discovered to be false, as Mackenzie was not Mac's son, and Holly had dyed Mackenzie's naturally dark hair.
When a volume of liquid is subjected to a sufficiently low [[pressure]] it may rupture and form a cavity. This phenomenon is termed cavitation inception and may occur behind the blade of a rapidly rotating propeller or on any surface vibrating underwater with sufficient amplitude and acceleration. A fast flowing river can cause cavitation on rock surfaces, particularly when there is a drop off, such as on a waterfall. Other ways of generating cavitation voids involve the local deposition of energy such as an intense focused laser pulse (optic cavitation) or with an electrical discharge through a spark. Vapor gasses evaporate into the cavity from the surrounding medium; thus the cavity is not a perfect vacuum but has a relatively low gas pressure. Such a low pressure cavitation bubble in a liquid will begin to collapse due to the higher pressure of the surrounding medium. As the bubble collapses, the pressure and temperature of the vapor within increases. The bubble will eventually collapse to a minute fraction of its original size, at which point the gas within dissipates into the surrounding liquid via a rather violent mechanism, which releases a significant amount of energy in the form of an acoustic shock-wave and as visible light. At the point of total collapse, the temperature of the vapor within the bubble may be several thousand [[kelvin]], and the pressure several hundred atmospheres.


Inertial cavitation can also occur in the presence of an acoustic field. Microscopic gas bubbles which are generally present in a liquid will be forced to oscillate due to an applied acoustic field. If the acoustic intensity is sufficiently high, the bubbles will first grow in size, and then rapidly collapse. Hence, inertial cavitation can occur even if the [[rarefaction]] in the liquid is insufficient for a Rayleigh-like void to occur. High power [[ultrasonics]] usually utilize the inertial cavitation of microscopic vacuum bubbles for treatment of surfaces, liquids and slurries.
Mac is noted for his kindness - he is always willing to help anyone out of a tight spot. If there is a fight, he will always be the one to break it up. If someone is upset, he will try to cheer them up. If someone is being victimised, he will stand up for them. He often has to stand up for junior doctor [[Martin Dear|Dr. Martin Dear]], who is often bullied by his half-brother [[Guy Secretan|Dr. Guy Secretan]]. He is also very professional, and does not like his team - Guy and the new surgical registrar [[Caroline Todd (Green Wing character)|Dr. Caroline Todd]] - being disturbed.


The physical process of cavitation inception is similar to [[boiling]]. The major difference between the two is the thermodynamic paths which precede the formation of the vapor. Boiling occurs when the local [[vapor pressure]] of the liquid rises above its local ambient pressure and sufficient energy is present to cause the phase change to a gas. Cavitation inception occurs when the local pressure falls sufficiently far below the saturated vapor pressure, a value given by the tensile strength of the liquid.
He has long 'fraise blonde' hair that one member of staff, [[Sue White]] calls the "Lion's mane". Guy often mocks it, saying that the reason he has it long is to, "Hide his large ears." Sue is just one of the many female members of staff who are attracted to him. Others include Caroline and Emmy, a physiotherapist working in the hospital.


In order for cavitation inception to occur, the cavitation "bubbles" generally need a surface on which they can [[nucleation|nucleate]]. This surface can be provided by the sides of a container or by [[impurity|impurities]] in the liquid or by small undissolved microbubble within the liquid. It is generally accepted that [[hydrophobe|hydrophobic]] surfaces stabilize small bubbles. These pre-existing bubbles start to grow unbounded when they are exposed to a pressure below the threshold pressure, termed [[Blake's threshold]].
Fluent in French, Mac enjoys intimidating Guy by explaining the history of specific terms including ''cassoulet'' and [[sabot]].
MANOJ


==Non-inertial cavitation ==
In series one, Mac is offered a position as a [[Consultant (medicine)|consultant]] in [[Sheffield]] and was intending to move up there with Emmy; however Caroline manages to win him over. Later that same night however, Mac tries to stop an intoxicated Guy who joyrides an ambulance and eventually crashes it over a cliff, putting Mac into a [[coma]] that lasts over two months. When he finally awakens he has completely forgotten the 24 [[hours]] before the incident and has no memory of the feelings he had for Caroline.
Non-inertial cavitation is the process where small bubbles in a liquid are forced to oscillate in the presence of an acoustic field, when the intensity of the acoustic field is insufficient to cause total bubble collapse. This form of cavitation causes significantly less erosion than inertial cavitation, and is often used for the cleaning of delicate materials, such as silicon wafers.


==Cavitation damage==
During the coma, Sue White lies to the hospital in Sheffield and tells them that Mac has died, taking away Mac's precious job opportunity. She also "experiments" and takes some of Mac's semen during his coma and impregnates herself with it through injection, later claiming to be [[pregnant]] with Mac's [[child]] (she announces this by sawing her way through a table in an Indian restaurant where some of the hospital staff are having dinner). However, the baby turns out to be a lion, probably due to the Lion's mane.
[[Image:Turbine Francis Worn.JPG|thumb|right|250px|Cavitation damage to a [[Francis turbine]]. ]]
Cavitation is, in many cases, an undesirable occurrence. In devices such as [[propeller]]s and [[pump]]s, cavitation causes a great deal of noise, damage to components, vibrations, and a loss of efficiency.


When the cavitation bubbles collapse, they force liquid energy into very small volumes, thereby creating spots of high temperature and emitting shock waves, the latter of which are a source of noise. The noise created by cavitation is a particular problem for military [[submarine]]s, as it increases the chances of being detected by passive [[sonar]].
In his spare time, Mac likes to ride his [[Ducati]] 1000DS [[motorbike]], but he does have the odd habit of riding it around naked. He also collects [[Evel Knievel]] [[memorabilia]]. He is a big fan of [[The Kinks]]. Another habit he has is making bets with Guy, and constantly proving that he is better than him. He is also known to like [[Goth subculture|Goth]]s, saying what he likes about them is the fact that, "They try to pretend to be ugly on purpose." He is also against [[plastic surgery]] for reasons of vanity, but not for those people who have had accidents. Mac has also been [[best man]] at seven weddings.


Although the collapse of a cavity is a relatively low-energy event, highly localized collapses can erode metals, such as steel, over time. The pitting caused by the collapse of cavities produces great wear on components and can dramatically shorten a propeller's or pump's lifetime.
His parking space is A3, right next to the hospital, but he does not use it. This angers Alan who only has a reserve parking space away from the hospital, despite his rank as consultant, but nothing he says or does can change this. Mac is apparently entitled to the parking space because he is a surgeon, even though he does not use it. He fills it with sand and has a beach barbecue there with Boyce and two bikini-clad women, much to Alan's chagrin.


After a surface is initially affected by cavitation, it tends to erode at an accelerating pace. The cavitation pits increase the turbulence of the fluid flow and create crevasses that act as nucleation sites for additional cavitation bubbles. The pits also increase the component's surface area and leave behind residual stresses. This makes the surface more prone to stress corrosion.<ref>{{Cite book | author=Stachowiak, G. W.; Batchelor, A. W. | authorlink= | coauthors= | title=Engineering tribology | date=2001 | publisher=Butterworth-Heinemann | location=Boston | isbn=0750673044 | pages=525}}</ref>
He was told at the end of the second series he was dying (the name of the cause was later revealed to have an A and an E in it). He was given a month's leave, and when he returned he learned of Caroline and Guy's engagement. However, Guy then allowed Mac to marry Caroline before he died. At the wedding, everyone coughed when Mac's real name was mentioned during the vows, much to Martin's disappointment.


==Chemical engineering applications==
One of the few facts known about his childhood, according to ''Green Wing - The Complete First Series Scripts'' was that he watched ''[[Fraggle Rock]]''. His favorite character was called Red, because both characters had similar coloured hair.
In industry, cavitation is often used to [[Homogenization|homogenize]], or mix and break down suspended particles in a colloidal liquid compound, such as paint mixtures or milk. Many industrial mixing machines are based upon this design principle. It is usually achieved through impeller design, or by forcing the mixture through an annular opening that has a narrow entrance orifice with a much larger exit orifice. In the latter case, the drastic decrease in pressure as the liquid accelerates into a larger volume induces cavitation. This method can be controlled with hydraulic devices that control inlet orifice size, allowing for dynamic adjustment during the process, or modification for different substances. The outer surface of this type of mixing valve, upon which the cavitation bubbles are driven against to cause their implosion, undergoes tremendous stress, and is often constructed of super-hard or tough materials such as stainless steel, [[Stellite]], or even polycrystalline diamond (PCD).


Cavitating [[water purification]] devices have also been designed, in which the extreme conditions of cavitation can break down pollutants and organic molecules. Spectral analysis of light emitted in [[sonochemistry|sonochemical reactions]] reveal chemical and plasma-based mechanisms of energy transfer. The light emitted from cavitation bubbles is termed [[sonoluminesence]].
== Relationships ==
=== Caroline ===
When Mac first met Caroline, they failed to get on. Mac thought of her a neurotic and Caroline thought of him as rude. But the more they work together, the more they start to like each other. When Caroline is sick at her housewarming party, Mac helps her, and eventually kisses her, after she has been sick.


Hydrophobic chemicals are attracted underwater by cavitation as the pressure difference between the bubbles and the liquid water forces them to join together. This effect may assist in protein folding.<ref>{{cite web | url = http://www.sandia.gov/news/resources/releases/2006/snap.html | work = Sandia National Laboratories | date = [[2006-08-02]] | accessdate = 2007-10-17 | title = Sandia researchers solve mystery of attractive surfaces }}</ref>
After her afternoon out with Guy, Caroline decides that it is Mac that she truly loves. However, by the time she asks him out, Mac is already going out with Emmy the physiotherapist, and he is planning to move to Sheffield. When Caroline tells Mac of the supposed crimes Emmy had committed, Mac knew that Emmy had already told him about the other Emily Lewis Westbrook. Luckily though, Mac’s attitude to the false accusation leads Emmy to leave him and for him to embrace Caroline.


==Biomedical application==
Their relationship takes a bad turn however after the cliff-hanging ambulance accident. Caroline constantly visits Mac while he is in a coma, talking, reading and playing music to him. When Mac wakes up, not only does he headbutt Caroline, but he has amnesia and has totally forgotten their relationship. Caroline tries to make him remember, but is not helped by Guy, who tries to interfere, forcibly by Sue at one point. But when Boyce tells Mac what happened before, they make up.
Cavitation plays an important role for the destruction of [[kidney stone]]s in shock wave [[lithotriptor|lithotripsy]]. Currently it is being tested whether cavitation can be used to transfer large molecules into biological [[cell (biology)|cell]]s ([[sonoporation]]). [[Nitrogen cavitation]] is a method used in research to [[lysis|lyse]] cell membranes while leaving organelles intact.
Cavitation also probably plays a role in [[HIFU]], a thermal non-invasive treatment methodology for [[cancer]].<ref>[http://www.histotripsy.umich.edu/ University of Michigan. ''Therapeutic Ultrasound Group, Biomedical Engineering Department, University of Michigan'']</ref>


==Cleaning application==
The relationship between Mac and Caroline is strained when Holly arrives at the hospital. Although Holly makes it clear that she is no longer interested in Mac (but secretly she is - the reason she took the job at the hospital was to win Mac back), she lies to Mac about having a son. The revelation leads to Caroline thinking it would be best for him and Holly to raise Mackenzie on their own, and starts going out with Jake. When it is discovered that Holly has lied, she leaves Jake and tries to get back with Mac again, but then Sue tells everyone that she is pregnant with Mac’s child.


In industrial cleaning applications, cavitation has sufficient power to overcome the particle-to-substrate adhesion forces, loosening contaminants. The threshold pressure required to initiate cavitation is a strong function of the pulse width and the power input. This method works by generating controlled acoustic cavitation in the cleaning fluid, picking up and carrying contaminant particles away so they don't reattach to the material being cleaned.<ref>http://www.prosysmeg.com/technology/articles/megasonics_cleaning.php ProSys. Technology. ''What is Megasonics cleaning?''</ref>
Soon, Mac tries to propose marriage to Caroline, by originally asking her if she could swap shifts, then asking if she could move in with him. Caroline later gets a message, seemingly from him, (by model train) that he wants to meet her at the train station. However, Mac learns that he is going to die and rides off on his motorbike. Mac’s supposed failure to turn up leads Caroline to accept Guy’s proposal of marriage. However, Guy then offers Caroline the chance to marry Mac before he dies. Caroline accepts and the two wed.


=== Guy ===
==Pumps and propellers==
Major places where cavitation occurs are in pumps, on propellers, or at restrictions in a flowing liquid.


As an impeller's (in a pump), or propeller's (as in the case of a ship or submarine) blades move through a fluid, low pressure areas are formed as the fluid accelerates around and moves past the blades. The faster the blades move, the lower the pressure around it can become. As it reaches [[vapor pressure]], the fluid [[vaporization|vaporizes]] and forms small [[bubble]]s of gas. This is cavitation. When the bubbles collapse later, they typically cause very strong local shockwaves in the fluid, which may be audible and may even damage the blades.
Guy and Mac have a strong love/hate relationship. They often argue about who is the most important person during the operation. Guy often claims his job of keeping the patient asleep is the most important, whereas Mac takes the view that the actual operation, and his work is more central to the operation. They often play silly games together to prove who is the greatest, such as running through a swimming pool, [[Guyball]] and, “The Spoon of Destiny,” where they put a spoon in their mouth and try to fill a bowl of sugar as quick as they can. Guy even plays ''[[Battleships]]'' with him when he is in his coma.


Cavitation in pumps may occur in two different forms:
Although they get on for most of the time, Mac normally steps in to stop Guy bullying Martin. When he lied to Martin about passing his exams, Mac threw coffee over him and then hit Guy’s head against the lockers, before making the half-brothers hug.


===Suction cavitation===
Their most famous bet occurred before Mac was meant to move to Sheffield, when he bet his first months consultancy wages that Guy could not sleep with Joanna. Guy did win the bet; the incident did lead to the ambulance accident. The tape, which he gave to Martin eventually ended up in the hands of Sue, who uses it a blackmail to make him stop Mac’s relationship with Caroline, which worked with only limited success.
[[Suction]] cavitation occurs when the pump suction is under a low-pressure/high-vacuum condition where the liquid turns into a vapor at the eye of the pump impeller. This vapor is carried over to the discharge side of the pump where it no longer sees vacuum and is compressed back into a liquid by the discharge pressure. This imploding action occurs violently and attacks the face of the impeller. An impeller that has been operating under a suction cavitation condition can have large chunks of material removed from its face or very small bits of material removed causing the impeller to look sponge-like. Both cases will cause premature failure of the pump often due to bearing failure. Suction cavitation is often identified by a sound like gravel or marbles in the pump casing.


===Discharge cavitation===
When Mac started to fall in love with Caroline, Guy tried on several occasions to stop him from what he thought was his attempt at proposing, but they never were. When Mac finally seems to set things up to propose at a station Guy arrives to see what he could have if he "was a bit more ginger". When Mac doesnt show Guy tells Caroline that Mac is "a bloody good guy". Later, he decided to allow Mac to marry Caroline before he died. Guy was also the best man at the wedding.
Discharge cavitation occurs when the pump discharge pressure is extremely high, normally occurring in a pump that is running at less than 10% of its best efficiency point. The high discharge pressure causes the majority of the fluid to circulate inside the pump instead of being allowed to flow out the discharge. As the liquid flows around the impeller it must pass through the small clearance between the impeller and the pump cutwater at extremely high [[velocity]]. This velocity causes a vacuum to develop at the cutwater (similar to what occurs in a [[Venturi effect|venturi]]) which turns the liquid into a vapor. A pump that has been operating under these conditions shows premature wear of the impeller vane tips and the pump cutwater. In addition, due to the high pressure conditions, premature failure of the pump's mechanical seal and bearings can be expected. Under extreme conditions, this can break the impeller shaft.


Discharge cavitation is believed to be the cause of [[cracking knuckles|the cracking of joints]].
=== Alan ===


==Cavitation in engines==
Mac does not get on well with Alan. Like many of the doctors, Mac often attacks his pomposity and superiority. They often attack each other's hairstyles, Alan mocking Mac’s rather feminine haircut, and Mac making remarks about Alan’s moustache.
Some bigger [[diesel engine]]s suffer from cavitation due to high compression and undersized [[cylinder (engine)|cylinder]] walls. Vibrations of the cylinder wall induce alternating low and high pressure in the [[water cooling|coolant]] against the cylinder wall. The result is pitting of the cylinder wall that will eventually let [[cooling fluid]] leak into the cylinder and combustion gases to leak into the coolant.


It is possible to prevent this from happening with chemical additives in the cooling fluid that form a protecting layer on the cylinder wall. This layer will be exposed to the same cavitation, but rebuilds itself.
Their main argument arose when Alan bought a new car, and was outraged by the fact that Mac has a parking space right near the entrance that he never uses, because he rides a motorbike. Alan tried to do everything possible to get the space but failed. He seemingly won the argument, when Boyce and Mac agreed to get Alan a better parking space, which resulted in his car being found in his office. He even went into an operation which Mac was performing. Alan accidentally pulled out a [[gall bladder]] and swallowed it, but regurgitated it back up.


=== Sue ===
==Vascular plants==
Cavitation occurs in the [[xylem]] of [[vascular plants]] when the water potential becomes so great that dissolved air within the water expands to fill the plant cell - either vessel elements or [[tracheid]]s. Plants are generally able to repair cavitated xylem, for example with root pressure, but for others such as vines, cavitation often leads to mortality. In some trees, the sound of the cavitation is clearly audible.
In the autumn the dropping temperature increases the formation of air bubbles in the tracheids of some plant species, causing them to drop their leaves.


==Marine Life==
Mac knows that Sue is crazy about him, but he shows no such affections towards her. He will do anything to try and avoid her advances. Sue never tries to stop her plans to marry him however, with her many attempts to murder Caroline and her sexual advances to her love. She once took off all her clothes and waited for Mac to arrive into the office, but instead Alan entered. When Mac did enter, he insisted that Sue put her clothes back on.
Just as cavitation bubbles form on a fast spinning boat propeller, they may also form on the tails and fins of aquatic animals. The effects of cavitation are especially important near the surface of the ocean where the ambient water pressure is relatively low and cavitation is more likely to occur.


For powerful swimming animals like [[dolphins]] and [[tuna]], cavitation may be detrimental because it limits their maximum swimming speed.<ref>{{cite news | last = Brahic | first = Catherine | title = Dolphins swim so fast it hurts | publisher = NewScientist | date = 2008-03-28 | url = http://www.newscientist.com/channel/life/dn13553-dolphins-swim-so-fast-it-hurts.html | accessdate = 2008-03-31}} </ref> Even if they have the power to swim faster, dolphins may have to restrict their speed because collapsing cavitation bubbles on their tail are too painful. Cavitation also slows tuna, but for a different reason. Unlike dolphins, these fish do not feel the painful bubbles because they have bony fins without nerve endings. Nevertheless they cannot swim faster because the cavitation bubbles create an air film around their fins that limits their speed. Lesions have been found on tuna that are consistent with cavitation damage.
During Mac’s coma, Sue was technically given the opportunity to do all the things she wished to do with Mac that he would not do if he was awake. She conducted her own wedding, and she even stole some of his semen so that she could make herself pregnant. She did, but in the end she gave birth to a lion named Simba.


Cavitation is not always a limitation for sea life. Some animals have found ways to use it to their advantage when hunting prey. The [[pistol shrimp]] snaps a specialized claw to create cavitation, which can kill small fish. The [[mantis shrimp]] (type ''smasher'') uses cavitation as well in order to stun, smash open, or kill the shellfish that it feasts upon.
In the second series, Mac gets a restraining order against her, and eventually suggests that she finds someone else, a person that would actually love her back. She apparently does, as she is accompanied by another man at Mac and Caroline's wedding.


=== Martin ===
==Coastal erosion==
In the last half a decade, coastal erosion in the form of inertial cavitation has been generally accepted.<ref>{{cite book |title=Environmental Geomorphology |last=Panizza |first=Mario |year=1996 |publisher=Elsevier |location=Amsterdam; New York |isbn=0444898301 |pages=112-115 }}</ref> Air pockets in an incoming wave are forced into cracks in the cliff being eroded, the force of the wave then compresses the air pockets until the bubble implodes, becoming liquid, giving off various forms of energy which blast apart the rock.


==List of cavitation tunnels==
Mac often ends up helping Martin whenever he is in trouble, or is being bullied by Guy. When Guy lied to Martin about passing his exams, Mac forced Guy to apologise after Mac poured coffee over him and banged his head against a locker.
{{See also|Water tunnel (hydrodynamic)}}
===Canada===
*National Research Council - Institute for Ocean Technology Cavitation Tunnel,<ref>[http://iot-ito.nrc-cnrc.gc.ca/facilities/ct_e.html Cavitation Tunnel - NRC-IOT<!-- Bot generated title -->]</ref>, St. Johns, Newfoundland, Canada
===France===
* "Tunnel de Cavitation" Ecole Navale<ref>[http://www.ecole-navale.fr Ecole Navale - Ecole Navale<!-- Bot generated title -->]</ref>, Lanveoc
* "Grand Tunnel Hydrodynamique" Bassin d'Essais des Carènes<ref>[http://www.bassin.fr cadre<!-- Bot generated title -->]</ref>, Val de Reuil
===Germany===
* Multiple cavitation tunnels at the Versuchsanstalt für Wasserbau und Schiffbau<ref>http://www.tu-berlin.de/vws/w3vwsde/w3facide/w3faciuk.htm|</ref>, Berlin
* Large Cavitation tunnel at Hamburg Ship Model Basin<ref>[http://www.hsva.de HSVA - Hamburgische Schiffbau-Versuchsanstalt<!-- Bot generated title -->]</ref>,Hamburg
===India===
* Cavitation Tunnel of the Naval Science and Technology Labs at Visakhapatnam,India
===Iran===
*Applied Hydrodynamics Laboratory, Iran University of Science and Technology,<ref>http://hydrolab.iust.ac.ir</ref>, Narmak, Tehran, Iran.
* Marine Engineering Laboratory, Sharif University of Technology,<ref>http://mech.sharif.edu/~mel/</ref>,<ref>http://mech.sharif.edu/~mel/CAVITATIONAL%20TUNEL.html</ref>, Azadi Av., Tehran, Iran.


===Netherlands===
Despite this, Mac still has to step in to help Martin. One such incident occurred when Guy had taped him to the toilet walls.
* Large Cavitation Tunnel and High Speed Cavitation Tunnel<ref>http://www.marin.nl/web/show/id=45465|</ref> at the [[MARIN (research)|Maritime Research Institute]], Wageningen.
===Norway===
* "Cavitation Lab" NTNU, The [[Norwegian University of Science and Technology]]<ref>[http://www.ivt.ntnu.no/imt/forskning/lab/cavitation.php Cavitation lab | IMT, IVT- NTNU<!-- Bot generated title -->]</ref>, Trondheim
===Poland===
*Ship Design and Research Centre (CTO S.A.) Centrum Techniki Okrętowej S.A.,<ref>[http://www.cto.gda.pl/index.php?id=80&L=1 Cavitation tunnel<!-- Bot generated title -->]</ref>, Gdansk, Poland.
===South Korea===
*Samsung Ship Model Basin (SSMB), Samsung Heavy Industries,<ref>http://www.shi.samsung.co.kr/eng/</ref>, Daejeon, South Korea.
===Spain===
*CEHIPAR (Canal de Experiencias Hidrodinámicas de El Pardo),<ref>[http://www.cehipar.es/cehiparweb/index.php?lang=english Canal de Experiencias Hidrodinámicas de El Pardo<!-- Bot generated title -->]</ref>, El Pardo (Madrid), Spain.
===Sweden===
*SSPA<ref>[http://www.sspa.se SSPA provides you with efficient maritime solutions! | SSPA Sweden<!-- Bot generated title -->]</ref>
===Taiwan===
*The Large Cavitation Tunnel at National Taiwan Ocean University, Keelung, Taiwan
===United Kingdom===
*"Emerson Cavitation Tunnel," [[University of Newcastle upon Tyne]].<ref>[http://www.ncl.ac.uk/cavitation Emerson Cavitation Tunnel<!-- Bot generated title -->]</ref>


===United States===
Martin's reaction to Mac's news of his illness was particularly emotional, and ended in him pitifully wailing "I heart you, Mac!". He later attacks Guy for not showing more sadness at the news, which Caroline overhears.
*The Garfield Thomas Water Tunnel The Pennsylvania State University<ref>[http://www.arl.psu.edu/facilities/gtwt.html GTWT<!-- Bot generated title -->]</ref>, State College, PA
*The William B. Morgan Large Cavitation Channel<ref>http://www50.dt.navy.mil/facilities/LCC.html</ref>, Memphis, TN
*MIT's variable pressure water tunnel<ref>[http://web.mit.edu/mhl/www MIT Marine Hydrodynamics Laboratory<!-- Bot generated title -->]</ref>


=== Holly ===
==See also==
*The phenomenon known as [[supercavitation]] is used to allow objects to travel under water at high speed.
*[[Supercavitation propeller]]
*[[Sonoluminescence]]
*[[Cavitation number]]
*[[Ultrasonics]]
*[[Erosion Corrosion of Copper Water Tubes]]
*[[Water hammer]]


==References==
Mac and Holly had a relationship for six years. They did get on well, even having their own nicknames for each other, Paul for Mac and John for Holly, after [[The Beatles]] Paul Macartney and John Lennon. However, when Holly became pregnant, and wanted to have an abortion because, “A child is a spanner in the works,” Mac tried to stop her. Holly ignored him and had the abortion anyway, causing them to split up.
{{reflist}}
S. Barnett; Nonthermal issues: Cavitation—Its nature, detection and measurement; Ultrasound in Medicine & Biology, Volume 24, Supplement 1, June 1998, Pages S11-S21


===Further reading ===
All the news that Mac now hears about Holly comes from Angela, who is still friends with her. She tells him of her marriage and her pregnancy. Holly then arrives at East Hampton to take over Angela's old job, since she has now split up with her former husband.
For cavitation in plants, see ''Plant Physiology'', by Taiz and Zeiger.
For cavitation in engineering field, visit [http://www.corrosion-doctors.org/Forms-cavitation/cavitation.htm]
* Kornfelt, M.: "On the destructive action of cavitation", Journal of applied Physics No.15, 1944.


==External links==
During her time at the hospital, Holly lies to Mac about not having an abortion, and tells him that their son is alive. It was later discovered to be part of a plan to make Mac have a relationship with Holly again, and Holly has since left the hospital.
{{Wiktionarypar|cavitation}}
* [http://caltechbook.library.caltech.edu/1/04/bubble.htm Cavitation and Bubble Dynamics by Christopher E. Brennen]
* [http://caltechbook.library.caltech.edu/51/01/multiph.htm Fundamentals of Multiphase Flow by Christopher E. Brennen]
* [http://www.cyberdenone.com/digital_diary/digital_diary_12.html Supercavitation]
* [http://www.hielscher.com/ultrasonics/sonochem_01.htm Cavitation and Sonochemistry]
* [http://dx.doi.org/10.1016/S0142-727X(03)00003-1 van der Waals-type CFD Modeling of Cavitation]
* [http://www.flashandsplash.ch Single Cavitation Bubble in a Water Drop - Evolution, Liquid Jets, Shock Wave]
* [http://www.newscientist.com/article/dn13553-dolphins-swim-so-fast-it-hurts.html Cavitation limits the speed of dolphins]


[[Category:Ship construction]]
=== Other relationships ===
[[Category:Fluid dynamics]]
[[Category:Plant physiology]]
[[Category:Pumps]]


[[af:Kavitasie]]
Mac’s major relationship was with Emmy in physiotherapy. Mac took her out a few times and they were intending to live together when Mac took a consultancy position in Sheffield. Caroline tried to stop him by accusing Emmy of a string of crimes; however it turned out that they had been committed by someone who stole her identity. Mac did not take the incident too seriously, which lead Emmy to leave him.
[[ar:تكهف]]

[[bs:Kavitacija]]
Mac never visits the human resources department. He is friendly with both Boyce and Angela, with the latter also being friends with Holly.
[[cs:Kavitace]]

[[de:Kavitation]]
== Other ==
[[et:Kavitatsioon]]
According to a poll conducted by the British Sitcom Guide, Mac was voted the favourite character in ''Green Wing''. He was also the voted the character most female fans would take on a date.<ref>{{cite web|url=http://www.sitcom.co.uk/green_wing/poll.php|title=Green Wing Poll|publisher=British Sitcom Guide|lanuage=English|date=2007-01-23|accessdate=2007-09-08}}</ref>
[[es:Cavitación]]

[[eo:Kavitacio]]
== References ==
[[fr:Cavitation]]
{{Reflist}}
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[[ko:공동현상]]
== External links ==
[[hr:Kavitacija]]
*[http://www.channel4.com/entertainment/tv/microsites/G/greenwing/mac.html ''Green Wing'' microsite biography]
[[it:Cavitazione]]

[[he:קוויטציה]]
{{Green Wing}}
[[hu:Kavitáció]]

[[nl:Cavitatie]]
{{DEFAULTSORT:Macartney, Dr. "Mac"}}
[[ja:キャビテーション]]
[[Category:Green Wing characters]]
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[[Category:Fictional surgeons]]
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[[ru:Кавитация]]
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[[uk:Кавітація]]

Revision as of 01:13, 11 October 2008

Cavitating propeller model in a water tunnel experiment
High speed jet of fluid impact on a fixed surface.
Cavitation damages on a valve plate for an axial piston hydraulic pump.

Cavitation is defined as the phenomenon of formation of vapour bubbles of a flowing liquid in a region where the pressure of the liquid falls below its vapour pressure. Cavitation is usually divided into two classes of behavior: inertial (or transient) cavitation and non-inertial cavitation. Inertial cavitation is the process where a void or bubble in a liquid rapidly collapses, producing a shock wave. Such cavitation often occurs in pumps, propellers, impellers, and in the vascular tissues of plants. Non-inertial cavitation is the process in which a bubble in a fluid is forced to oscillate in size or shape due to some form of energy input, such as an acoustic field. Such cavitation is often employed in ultrasonic cleaning baths and can also be observed in pumps, propellers etc.

Inertial cavitation

Inertial cavitation was first studied by Lord Rayleigh in the late 19th century when he considered the collapse of a spherical void within a liquid. When a volume of liquid is subjected to a sufficiently low pressure it may rupture and form a cavity. This phenomenon is termed cavitation inception and may occur behind the blade of a rapidly rotating propeller or on any surface vibrating underwater with sufficient amplitude and acceleration. A fast flowing river can cause cavitation on rock surfaces, particularly when there is a drop off, such as on a waterfall. Other ways of generating cavitation voids involve the local deposition of energy such as an intense focused laser pulse (optic cavitation) or with an electrical discharge through a spark. Vapor gasses evaporate into the cavity from the surrounding medium; thus the cavity is not a perfect vacuum but has a relatively low gas pressure. Such a low pressure cavitation bubble in a liquid will begin to collapse due to the higher pressure of the surrounding medium. As the bubble collapses, the pressure and temperature of the vapor within increases. The bubble will eventually collapse to a minute fraction of its original size, at which point the gas within dissipates into the surrounding liquid via a rather violent mechanism, which releases a significant amount of energy in the form of an acoustic shock-wave and as visible light. At the point of total collapse, the temperature of the vapor within the bubble may be several thousand kelvin, and the pressure several hundred atmospheres.

Inertial cavitation can also occur in the presence of an acoustic field. Microscopic gas bubbles which are generally present in a liquid will be forced to oscillate due to an applied acoustic field. If the acoustic intensity is sufficiently high, the bubbles will first grow in size, and then rapidly collapse. Hence, inertial cavitation can occur even if the rarefaction in the liquid is insufficient for a Rayleigh-like void to occur. High power ultrasonics usually utilize the inertial cavitation of microscopic vacuum bubbles for treatment of surfaces, liquids and slurries.

The physical process of cavitation inception is similar to boiling. The major difference between the two is the thermodynamic paths which precede the formation of the vapor. Boiling occurs when the local vapor pressure of the liquid rises above its local ambient pressure and sufficient energy is present to cause the phase change to a gas. Cavitation inception occurs when the local pressure falls sufficiently far below the saturated vapor pressure, a value given by the tensile strength of the liquid.

In order for cavitation inception to occur, the cavitation "bubbles" generally need a surface on which they can nucleate. This surface can be provided by the sides of a container or by impurities in the liquid or by small undissolved microbubble within the liquid. It is generally accepted that hydrophobic surfaces stabilize small bubbles. These pre-existing bubbles start to grow unbounded when they are exposed to a pressure below the threshold pressure, termed Blake's threshold. MANOJ

Non-inertial cavitation

Non-inertial cavitation is the process where small bubbles in a liquid are forced to oscillate in the presence of an acoustic field, when the intensity of the acoustic field is insufficient to cause total bubble collapse. This form of cavitation causes significantly less erosion than inertial cavitation, and is often used for the cleaning of delicate materials, such as silicon wafers.

Cavitation damage

Cavitation damage to a Francis turbine.

Cavitation is, in many cases, an undesirable occurrence. In devices such as propellers and pumps, cavitation causes a great deal of noise, damage to components, vibrations, and a loss of efficiency.

When the cavitation bubbles collapse, they force liquid energy into very small volumes, thereby creating spots of high temperature and emitting shock waves, the latter of which are a source of noise. The noise created by cavitation is a particular problem for military submarines, as it increases the chances of being detected by passive sonar.

Although the collapse of a cavity is a relatively low-energy event, highly localized collapses can erode metals, such as steel, over time. The pitting caused by the collapse of cavities produces great wear on components and can dramatically shorten a propeller's or pump's lifetime.

After a surface is initially affected by cavitation, it tends to erode at an accelerating pace. The cavitation pits increase the turbulence of the fluid flow and create crevasses that act as nucleation sites for additional cavitation bubbles. The pits also increase the component's surface area and leave behind residual stresses. This makes the surface more prone to stress corrosion.[1]

Chemical engineering applications

In industry, cavitation is often used to homogenize, or mix and break down suspended particles in a colloidal liquid compound, such as paint mixtures or milk. Many industrial mixing machines are based upon this design principle. It is usually achieved through impeller design, or by forcing the mixture through an annular opening that has a narrow entrance orifice with a much larger exit orifice. In the latter case, the drastic decrease in pressure as the liquid accelerates into a larger volume induces cavitation. This method can be controlled with hydraulic devices that control inlet orifice size, allowing for dynamic adjustment during the process, or modification for different substances. The outer surface of this type of mixing valve, upon which the cavitation bubbles are driven against to cause their implosion, undergoes tremendous stress, and is often constructed of super-hard or tough materials such as stainless steel, Stellite, or even polycrystalline diamond (PCD).

Cavitating water purification devices have also been designed, in which the extreme conditions of cavitation can break down pollutants and organic molecules. Spectral analysis of light emitted in sonochemical reactions reveal chemical and plasma-based mechanisms of energy transfer. The light emitted from cavitation bubbles is termed sonoluminesence.

Hydrophobic chemicals are attracted underwater by cavitation as the pressure difference between the bubbles and the liquid water forces them to join together. This effect may assist in protein folding.[2]

Biomedical application

Cavitation plays an important role for the destruction of kidney stones in shock wave lithotripsy. Currently it is being tested whether cavitation can be used to transfer large molecules into biological cells (sonoporation). Nitrogen cavitation is a method used in research to lyse cell membranes while leaving organelles intact. Cavitation also probably plays a role in HIFU, a thermal non-invasive treatment methodology for cancer.[3]

Cleaning application

In industrial cleaning applications, cavitation has sufficient power to overcome the particle-to-substrate adhesion forces, loosening contaminants. The threshold pressure required to initiate cavitation is a strong function of the pulse width and the power input. This method works by generating controlled acoustic cavitation in the cleaning fluid, picking up and carrying contaminant particles away so they don't reattach to the material being cleaned.[4]

Pumps and propellers

Major places where cavitation occurs are in pumps, on propellers, or at restrictions in a flowing liquid.

As an impeller's (in a pump), or propeller's (as in the case of a ship or submarine) blades move through a fluid, low pressure areas are formed as the fluid accelerates around and moves past the blades. The faster the blades move, the lower the pressure around it can become. As it reaches vapor pressure, the fluid vaporizes and forms small bubbles of gas. This is cavitation. When the bubbles collapse later, they typically cause very strong local shockwaves in the fluid, which may be audible and may even damage the blades.

Cavitation in pumps may occur in two different forms:

Suction cavitation

Suction cavitation occurs when the pump suction is under a low-pressure/high-vacuum condition where the liquid turns into a vapor at the eye of the pump impeller. This vapor is carried over to the discharge side of the pump where it no longer sees vacuum and is compressed back into a liquid by the discharge pressure. This imploding action occurs violently and attacks the face of the impeller. An impeller that has been operating under a suction cavitation condition can have large chunks of material removed from its face or very small bits of material removed causing the impeller to look sponge-like. Both cases will cause premature failure of the pump often due to bearing failure. Suction cavitation is often identified by a sound like gravel or marbles in the pump casing.

Discharge cavitation

Discharge cavitation occurs when the pump discharge pressure is extremely high, normally occurring in a pump that is running at less than 10% of its best efficiency point. The high discharge pressure causes the majority of the fluid to circulate inside the pump instead of being allowed to flow out the discharge. As the liquid flows around the impeller it must pass through the small clearance between the impeller and the pump cutwater at extremely high velocity. This velocity causes a vacuum to develop at the cutwater (similar to what occurs in a venturi) which turns the liquid into a vapor. A pump that has been operating under these conditions shows premature wear of the impeller vane tips and the pump cutwater. In addition, due to the high pressure conditions, premature failure of the pump's mechanical seal and bearings can be expected. Under extreme conditions, this can break the impeller shaft.

Discharge cavitation is believed to be the cause of the cracking of joints.

Cavitation in engines

Some bigger diesel engines suffer from cavitation due to high compression and undersized cylinder walls. Vibrations of the cylinder wall induce alternating low and high pressure in the coolant against the cylinder wall. The result is pitting of the cylinder wall that will eventually let cooling fluid leak into the cylinder and combustion gases to leak into the coolant.

It is possible to prevent this from happening with chemical additives in the cooling fluid that form a protecting layer on the cylinder wall. This layer will be exposed to the same cavitation, but rebuilds itself.

Vascular plants

Cavitation occurs in the xylem of vascular plants when the water potential becomes so great that dissolved air within the water expands to fill the plant cell - either vessel elements or tracheids. Plants are generally able to repair cavitated xylem, for example with root pressure, but for others such as vines, cavitation often leads to mortality. In some trees, the sound of the cavitation is clearly audible. In the autumn the dropping temperature increases the formation of air bubbles in the tracheids of some plant species, causing them to drop their leaves.

Marine Life

Just as cavitation bubbles form on a fast spinning boat propeller, they may also form on the tails and fins of aquatic animals. The effects of cavitation are especially important near the surface of the ocean where the ambient water pressure is relatively low and cavitation is more likely to occur.

For powerful swimming animals like dolphins and tuna, cavitation may be detrimental because it limits their maximum swimming speed.[5] Even if they have the power to swim faster, dolphins may have to restrict their speed because collapsing cavitation bubbles on their tail are too painful. Cavitation also slows tuna, but for a different reason. Unlike dolphins, these fish do not feel the painful bubbles because they have bony fins without nerve endings. Nevertheless they cannot swim faster because the cavitation bubbles create an air film around their fins that limits their speed. Lesions have been found on tuna that are consistent with cavitation damage.

Cavitation is not always a limitation for sea life. Some animals have found ways to use it to their advantage when hunting prey. The pistol shrimp snaps a specialized claw to create cavitation, which can kill small fish. The mantis shrimp (type smasher) uses cavitation as well in order to stun, smash open, or kill the shellfish that it feasts upon.

Coastal erosion

In the last half a decade, coastal erosion in the form of inertial cavitation has been generally accepted.[6] Air pockets in an incoming wave are forced into cracks in the cliff being eroded, the force of the wave then compresses the air pockets until the bubble implodes, becoming liquid, giving off various forms of energy which blast apart the rock.

List of cavitation tunnels

See also: Water tunnel (hydrodynamic)

Canada

  • National Research Council - Institute for Ocean Technology Cavitation Tunnel,[7], St. Johns, Newfoundland, Canada

France

  • "Tunnel de Cavitation" Ecole Navale[8], Lanveoc
  • "Grand Tunnel Hydrodynamique" Bassin d'Essais des Carènes[9], Val de Reuil

Germany

  • Multiple cavitation tunnels at the Versuchsanstalt für Wasserbau und Schiffbau[10], Berlin
  • Large Cavitation tunnel at Hamburg Ship Model Basin[11],Hamburg

India

  • Cavitation Tunnel of the Naval Science and Technology Labs at Visakhapatnam,India

Iran

  • Applied Hydrodynamics Laboratory, Iran University of Science and Technology,[12], Narmak, Tehran, Iran.
  • Marine Engineering Laboratory, Sharif University of Technology,[13],[14], Azadi Av., Tehran, Iran.

Netherlands

Norway

Poland

  • Ship Design and Research Centre (CTO S.A.) Centrum Techniki Okrętowej S.A.,[17], Gdansk, Poland.

South Korea

  • Samsung Ship Model Basin (SSMB), Samsung Heavy Industries,[18], Daejeon, South Korea.

Spain

  • CEHIPAR (Canal de Experiencias Hidrodinámicas de El Pardo),[19], El Pardo (Madrid), Spain.

Sweden

Taiwan

  • The Large Cavitation Tunnel at National Taiwan Ocean University, Keelung, Taiwan

United Kingdom

United States

  • The Garfield Thomas Water Tunnel The Pennsylvania State University[22], State College, PA
  • The William B. Morgan Large Cavitation Channel[23], Memphis, TN
  • MIT's variable pressure water tunnel[24]

See also

References

  1. ^ Stachowiak, G. W.; Batchelor, A. W. (2001). Engineering tribology. Boston: Butterworth-Heinemann. p. 525. ISBN 0750673044. {{cite book}}: Cite has empty unknown parameter: |coauthors= (help)CS1 maint: multiple names: authors list (link)
  2. ^ "Sandia researchers solve mystery of attractive surfaces". Sandia National Laboratories. 2006-08-02. Retrieved 2007-10-17. {{cite web}}: Check date values in: |date= (help)
  3. ^ University of Michigan. Therapeutic Ultrasound Group, Biomedical Engineering Department, University of Michigan
  4. ^ http://www.prosysmeg.com/technology/articles/megasonics_cleaning.php ProSys. Technology. What is Megasonics cleaning?
  5. ^ Brahic, Catherine (2008-03-28). "Dolphins swim so fast it hurts". NewScientist. Retrieved 2008-03-31.
  6. ^ Panizza, Mario (1996). Environmental Geomorphology. Amsterdam; New York: Elsevier. pp. 112–115. ISBN 0444898301.
  7. ^ Cavitation Tunnel - NRC-IOT
  8. ^ Ecole Navale - Ecole Navale
  9. ^ cadre
  10. ^ http://www.tu-berlin.de/vws/w3vwsde/w3facide/w3faciuk.htm%7C
  11. ^ HSVA - Hamburgische Schiffbau-Versuchsanstalt
  12. ^ http://hydrolab.iust.ac.ir
  13. ^ http://mech.sharif.edu/~mel/
  14. ^ http://mech.sharif.edu/~mel/CAVITATIONAL%20TUNEL.html
  15. ^ http://www.marin.nl/web/show/id=45465%7C
  16. ^ Cavitation lab | IMT, IVT- NTNU
  17. ^ Cavitation tunnel
  18. ^ http://www.shi.samsung.co.kr/eng/
  19. ^ Canal de Experiencias Hidrodinámicas de El Pardo
  20. ^ SSPA provides you with efficient maritime solutions! | SSPA Sweden
  21. ^ Emerson Cavitation Tunnel
  22. ^ GTWT
  23. ^ http://www50.dt.navy.mil/facilities/LCC.html
  24. ^ MIT Marine Hydrodynamics Laboratory

S. Barnett; Nonthermal issues: Cavitation—Its nature, detection and measurement; Ultrasound in Medicine & Biology, Volume 24, Supplement 1, June 1998, Pages S11-S21

Further reading

For cavitation in plants, see Plant Physiology, by Taiz and Zeiger. For cavitation in engineering field, visit [1]

  • Kornfelt, M.: "On the destructive action of cavitation", Journal of applied Physics No.15, 1944.

External links

Look up cavitation in Wiktionary, the free dictionary.
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