Dictionary Definition
seaplane n : an airplane that can land on or take
off from water; "the designer of marine aircraft demonstrated his
newest hydroplane" [syn: hydroplane] v : glide on the
water in a hydroplane [syn: hydroplane]
User Contributed Dictionary
English
Noun
- In the context of "aircraft|nautical": Any aircraft capable of taking off from, and alighting on the surface of water
See also
Translations
an aircraft
- Danish: vandfly
- Dutch: watervliegtuig
- Finnish: vesitaso
- French: hydravion
- German: Wasserflugzeug
- Hungarian: hidroplán
- Italian: idrovolante
- Japanese: 水上機 (すいじょうき, suijōki)
- Norwegian: sjøfly
- Polish: wodnosamolot
- Portuguese: hidroavião
- Russian: гидросамолёт
- Slovene: hidroplan
- Spanish: hidroavión
- Swedish: sjöflygplan
Extensive Definition
A seaplane is a fixed-wing
aircraft designed to take off and land (alight) on water.
Seaplanes can be divided into separate categories such as floatplanes, flying boats,
and amphibians.
These aircraft are occasionally called hydroplanes, a term rarely
used in English.
Types
The word "seaplane" is used to describe two types of air/water vehicles: the floatplane and the flying boat.- A floatplane has slender pontoons mounted under the fuselage. Two floats are common, but many floatplanes of World War II had a single float under the main fuselage and two small floats on the wings. Only the "floats" of a floatplane normally come into contact with water. The fuselage remains above water. Some small land aircraft can be modified to become float planes.
- In a flying boat, the main source of buoyancy is the fuselage, which acts like a ship's hull in the water. Most flying boats have small floats mounted on their wings to keep them stable.
The term "seaplane" is used by some to refer only
to floatplanes (aircraft with floats as landing
gear), with the flying boat being a distinct type of craft.
This article treats both flying boats and floatplanes as types of
seaplane.
An amphibious aircraft can take off and land both
on conventional runways and water. A true seaplane can only take
off and land on water. There are amphibious flying boats and
amphibious floatplanes, as well as some hybrid designs, e.g.,
floatplanes with retractable floats. Modern production seaplanes
are largely amphibious and of a floatplane design.
History
The first seaplane was invented in March 1910 by the French engineer Henri Fabre. Its name was Le Canard ('the duck'), and took off from the water and flew 800 meters on its first flight on March 28 1910. These experiments were closely followed by the aircraft pioneers Gabriel and Charles Voisin, who purchased several of the Fabre floats and fitted them to their Canard Voisin airplane. In October 1910, the Canard Voisin became the first seaplane to fly over the river Seine, and in March 1912, the first seaplane to be used militarily from a seaplane carrier, La Foudre ('the lightning').In the United States, early development was
carried out at Hammondsport,
New York
by Glenn
Curtiss who had beaten Alexander
Graham Bell and others in the
Aerial Experiment Association. The first American seaplane
flight occurred on January 26,
1911.
Englishman John Cyril
Porte joined with Curtiss to design a transatlantic flying
boat, and developed a more practical hull for Curtiss' airframe and
engines with the distinctive 'step' which enabled the hull and
floats to cleanly break free of the water's surface at take-off. In
the UK the Curtiss flying boat was developed into the Felixstowe
series of flying boats, which were used in the First World War
to patrol for German submarines. Curtiss N-9
seaplanes were used during World War I as primary trainers, and
over 2,500 Navy pilots learned to fly in them. A handful of N-9s
were used in the
Hewitt-Sperry Automatic Airplane project to develop an "aerial
torpedo", an early RPV.
Due to the lack of runways and the perceived
safety factor over water, many commercial airlines including
Imperial
Airways (fore-runner of BOAC), and Pan-American
World Airways used large seaplanes to provide service for long
distance service across the Atlantic, Pacific and
Indian
Oceans. Aircraft specially built for these routes included some
of the largest aircraft built between the wars.
Examples include:
Smaller carriers found them useful as well for
operating into areas without prepared runways. Popular with bush
operators, sportsmen and explorers, a huge variety of designs were
built. Examples include:
Typical for the above types, the Grumman
Goose came about in 1936, when a group of wealthy
industrialists, including Henry Morgan, Marshall Field and E.R.
Harriman, wanted an easier way to commute from their homes on Long
Island, New York, to the financial district of Wall Street. They
commissioned Roy Grumman to build ten airplanes that could take off
from their private air strips and land on the water near the
financial district. Grumman re-engineered their amphibians after
the war and built a commercial version of their durable amphibians,
called the Grumman
Mallard.
During World War
II, most navies used
seaplanes for reconnaissance, search
and rescue, and anti-submarine
warfare. Possibly the most commonly known was the Consolidated PBY
Catalina which was flown by the United States, United Kingdom,
Russia, and Canada, among many others. Similar aircraft were used
by Japan, Germany, Italy.
The US Navy utilized a fleet of seaplanes for
reconnaissance, rescue and had many fitted with machine guns and
bombs. Most battleships carried one or
two (some cases as many as four) catapult-launched seaplanes to
spot targets over the horizon for the big guns, or to fight off
enemy reconnaissance planes. The failure of the German battleship
Bismarck's
Arado
196 seaplane to hunt down a PBY is said to have contributed to
that ship's demise. Examples include:
In the post war period the availability of large
paved runways and the greatly expanded performance of land-based
planes meant that both commercial and military use of seaplanes was
much reduced. Anti-Submarine
Warfare was just as easily carried out with land based
aircraft, which often had better performance, and Search
and Rescue could more easily be carried out with helicopters,
which had the advantages of being operated from smaller ships, and
in higher sea states. The compromises that came from being able to
float and rise again from the water caused excessive drag and added
considerably to the weight of the aircraft. In commercial service
this translated into increased costs, and for a military aircraft,
into reduced warloads, speeds and ranges.
Only in specialized roles were they able to
remain competitive, such as waterbombing, where their ability to
quickly reload was a huge asset. A number of surplus WW2 seaplanes
including the PBY and Martin Mars
were initially used in this role but their advancing age has
required a new specially designed aircraft in the form of the
Canadair
CL-215 which operates alongside an entire air force of
second-hand land-based bombers and transports.
The only amphibian aircraft produced for post war
commercial usage was the Grumman
Mallard which was designed as a true airliner, with modern
technology and longer ranges, greater passenger and cargo loads.
The Mallard saw production from 1946-1951. Only 59 were delivered,
used mostly by corporations and some regional commuter
carriers.
The British and the US experimented with jet
powered seaplane fighters such as the Saunders-Roe
SR.A/1 but despite some successes these did not enter service.
An attempt was made in the early to mid-1950s to develop a large
jet-powered flying boat (the Martin P6M
SeaMaster) for the U.S. Navy. Although several prototypes were
built and tested, the project, like those of the fighters, was
eventually terminated.
The U.S. Navy, however, continued to operate
seaplanes and seaplane tenders, especially in the Far East, until
the mid-1970s. Both Japan and Russia continued operating military
seaplanes even later, including the Shin Mewa
PS-1 and Beriev
Be-12, primarily for Anti-Submarine
Warfare, where they can take advantage of their range and speed
over helicopters, while still able to land on water.
Seaplanes are still being used for firefighting
and sightseeing, but have been replaced in nearly all military
roles by helicopters.
Uses and operation
Numerous modern civilian aircraft have a
floatplane variant, usually for light duty transportation to lakes
and other remote areas. Most of these are offered as third-party
modifications under a
supplemental type certificate (STC), although there are several
aircraft manufacturers that build floatplanes from scratch, and a
few that continue to build flying
boats. Many older flying boats remain in service for
fire-fighting duty, and
Chalk's Ocean Airways operated a fleet of Grumman Mallards in
passenger service until service was suspended after a
crash on December 19,
2005, which
was linked to maintenance, not to design of the aircraft. Purely
water-based seaplanes have largely been supplanted by amphibious
aircraft.
Seaplanes can only take off and land on water
with little or no wave
action and, like other aircraft, have trouble in extreme weather.
The size of waves a given design can withstand depends on, among
other factors, the aircraft's size, hull or float design, and its
weight, all making for a much more unstable aircraft, limiting
actual operational days. Flying boats can typically handle rougher
water and are generally more stable than floatplanes while on the
water.
Rescue
organizations, such as coast guards,
are among the largest modern operators of seaplanes due to their
efficiency and their ability to both spot and rescue survivors.
Land-based airplanes cannot rescue survivors, and many helicopters
are limited in their capacity to carry survivors and in their
fuel
efficiency compared to fixed-wing aircraft. (Helicopters may
also be fitted with floats to facilitate their usage on water,
though not referred to as seaplanes.) These are even more limited
in range.
Water aircraft are also often used in remote
areas such as the Alaskan and Canadian outback, especially in areas
with a large number of lakes convenient for takeoff and
landing. They may operate on a charter
basis, provide scheduled service, or be operated by residents of
the area for private, personal use.
Greece uses
seaplanes to connect its many islands to
the mainland. In the Western Hemisphere, there are numerous
seaplane operators in the Caribbean
Sea that offer service within or between island groups.
In August 2007, Scottish based commercial
operator Loch
Lomond Seaplanes launched the only European city based seaplane
service. They offer a daily service from Glasgow, Scotland's
largest city, to the west coast town of Oban, as well as charters
and excursions elsewhere.
See also
References
seaplane in Arabic: طائرة مائية
seaplane in Bulgarian: Хидроплан
seaplane in Catalan: Hidroavió
seaplane in Czech: Hydroplán
seaplane in Danish: Vandfly
seaplane in German: Wasserflugzeug
seaplane in Modern Greek (1453-):
Υδροπλάνο
seaplane in Spanish: Hidroavión
seaplane in French: Hydravion
seaplane in Italian: Idrovolante
seaplane in Lithuanian: Vandens lėktuvas
seaplane in Hebrew: מטוס ים
seaplane in Hungarian: Hidroplán
seaplane in Dutch: Watervliegtuig
seaplane in Japanese: 水上機
seaplane in Norwegian: Sjøfly
seaplane in Polish: Wodnosamolot
seaplane in Portuguese: Hidroavião
seaplane in Romanian: Hidroavion
seaplane in Russian: Гидросамолёт
seaplane in Slovenian: Hidroplan
seaplane in Finnish: Vesilentokone
seaplane in Swedish: Sjöflygplan
seaplane in Tajik: Гидросамолёт
seaplane in Ukrainian: Гідроплан
seaplane in Chinese: 水上飛機