Полнотекстовый поиск:
Где искать:
только в названии
только в тексте
слова в тексте
только заголовок

Рекомендуем ознакомиться

Остальные работы->Реферат
Because of King Hamlet?s mysterious death, Gertrude is driven to marry her brother-in-law, Claudius, who now reigns as the King. Undisturbed by her ne...полностью>>
Остальные работы->Реферат
New England settlers’ architecture reflected the late Gothic Inspiration, such as the gabled houses of wood. The houses also had prominent brick chimn...полностью>>
Остальные работы->Реферат
Why do our forests continue to be destroyed? Rainforests all over Australia has been descending at a rapidly low pace. These problems have arisen main...полностью>>
Остальные работы->Реферат
book reviewsWe revere it, we destroy it, we deconstruct it… PD Smith gets to grips with the natural world in books from Kenneth Olwig, Nicholas Roe, O...полностью>>

Главная > Реферат >Остальные работы

Сохрани ссылку в одной из сетей:













An airship is a type of lighter-than-air aircraft with propulsion and steering

systems, it is used to carry passengers and cargo. It obtains its buoyancy

from the presence of a lighter-than-air gas such as hydrogen or helium. The

first airship was developed by the French, called a ballon dirigible, it could

be steered and could also be flown against the wind.


Two basic types of airship have been developed: the rigid airship, the shape of

which is fixed by its internal structure; and the nonrigid blimp, which depends

on the pressure created by a series of air diaphragms inside its gas space to

maintain the shape of its fabric hull. Inventors sought to combine the best

features of these models in a semirigid type, but it met with only limited

success. Today only the nonrigid airship is used.

Rigid Airship

The rigid airship’s structure resembled a cage that enclosed a series of

balloons called gas cells. These cells were tailored to fit the cylindrical

space and were secured in place by a netting that transmitted the lifting force

of their gas to the structure. Each gas cell had two or more valves, which

operated automatically to relieve pressure when the gas expanded with altitude,

the valves could also be operated manually so that the pilot could release gas

whenever desired.

Also on board was a ballast system that used water as ballast. On the ground

this ballast served to make the airship heavier than air. When part of it was

released, the airship ascended to a cruising altitude where the engines supplied

propulsion, and further ballast could be released to gain more altitude. As fuel

was consumed, the airship became lighter and tended to climb. This was

countered in hydrogen-inflated airships by simply releasing gas into the


The method was uneconomical, however, with helium-inflated airships, and they

were therefore equipped with ballast generators, apparatuses that condensed

moisture out of the engines’ exhaust gases to compensate for fuel that was

consumed. But this ballast-generating equipment was expensive, complex, heavy,

and difficult to maintain and was thus one of the most serious disadvantages of

airships filled with the safer but more expensive helium.

Nonrigid Airship

In contrast to the rigid airship, the nonrigid blimp has no internal structure

to maintain the shape of its hull envelope, which is made of two or three plies

of cotton, nylon, or dacron impregnated with rubber for gas tightness. Inside

the gas space of the hull are two or more air diaphragms called ballonets that

are kept under slight pressure, either by blowers or by air that is forced

through scoops as a result of the forward motion (ram effect). The ballonets in

turn exert pressure upon the gas, which fills the envelope, and this pressure in

turn serves to stiffen the shape of the envelope and create a smooth flying

surface. On takeoff the ballonets are almost fully inflated, but as the airship

gains altitude and the gas expands, air is bled from the ballonets while a

constant pressure is maintained throughout the envelope. When the gas contracts

upon descent, air is pumped back into the ballonets.


The German company Luftschiffbau Zeppelin had the most success in building rigid

airships. The first Zeppelin was flown on July 2, 1900; it was 419 ft long, 38

ft in diameter, contained 338,410 cu ft of hydrogen gas in 16 cells, and was

powered by two 16-hp engines. Its range and payload were negligible. The last

Zeppelin was the Graf Zeppelin II, which was first flown on Sept. 14, 1938; it

was 803 ft long, 135 ft at maximum diameter, contained 7,062,100 cu ft of

hydrogen, and was powered by four 1,050-hp Daimler Benz diesel engines. It

could carry loads of 30 tons over transoceanic distances. It was scrapped in

May 1940.

A total of 119 Zeppelins were built, most of them during World War I, when 103

airships were delivered to the military. The most famous Zeppelin was the

original GRAF ZEPPELIN, which during 1928-37 made flights to the United States,

the Arctic, the Middle East, and South America; it also made one flight around

the world. Another famous Zeppelin was the airliner hindenburg, which was

destroyed by fire at Lakehurst, N.J., on May 6, 1937.

The British made intermittent efforts to develop the rigid airship; they built

eight during World War I and six shortly thereafter. The most noteworthy was

the R-34, which in July 1919 made the first transatlantic round-trip flight. An

effort to develop two airships of 5,000,000 cu ft for intercontinental air

service came to grief in October 1930 when the R-101 crashed and burned in

France. The R-100, which had made a successful flight to Canada earlier in the

year, was subsequently scrapped. In the United States, the development of rigid

airships was undertaken by the navy, and only five were operated. The navy-

built ZR-1 SHENANDOAH made its first flight on Sept. 4, 1923, and was torn to

pieces by a thunderstorm over southern Ohio on Sept. 3, 1925. The ZR-2 was

procured in England but crashed on Aug. 24, 1921, before it could be delivered

to the United States. The ZR-3 Los Angeles, built in Germany by Luftschiffbau

Zeppelin, made its transatlantic delivery flight during Oct. 11-15, 1924; it

was flown successfully until decommissioned in 1931 and was scrapped in early

1940. The ZRS4 and ZRS5 AKRON AND MACON were built by the Goodyear-Zeppelin Co.

of Akron, Ohio. These 6,500,000-cu ft sister ships were 785 ft long and 133 ft

at maximum diameter, and were powered by eight 560-hp Maybach engines. Their

design was unique in that it provided for an internal space for five airplanes

that could be launched and retrieved while the airships were in flight. The

Akron first flew on Sept. 23, 1931 and was lost in a storm over the Atlantic on

Apr. 4, 1933; the Macon first flew on Apr. 21, 1933, and crashed in the Pacific

on Feb. 12, 1935.


The first successful nonrigid airships were built by the French. In 1852 Henri

Giffard built an airship of 113,000 cu ft powered by a steam engine. The

brothers Albert and Gaston Tissandier constructed a 37,500-cu ft airship

propelled by a battery-powered electric motor in 1883, and the following year

Charles Renard and Arthur C. Krebs built the 66,000-cu ft La France, which also

used electric power. At the turn of the century the Brazilian aeronaut Alberto

Dumont built and flew a series of small airships in France, all of which used

gasoline engines. Blimps were effectively used by the British and French in

World War I in maritime reconnaissance against German submarines. The term

blimp, a British slang expression of unknown origin, came into use about this


In World War II, the United States was the only power to use airships. The navy

used them for minesweeping and antisubmarine patrols. Its more than 150 blimps

were operated from bases on the east and west coasts, the Gulf of Mexico, the

Caribbean, and as far south as Brazil. The workhorse of these forces was the K-

type blimp, 253 ft long, 60 ft in diameter, containing 456,000 cu ft of gas, and

powered by two 425-hp engines that gave a top speed of 50 mph. Blimps are not

fast, but whereas an airplane can remain airborne for only a few hours, a K-ship

could stay aloft for 60 hours. In 1944, six K-ships flew across the Atlantic to

Morocco, where they established a low-altitude antisubmarine barrier across the

Strait of Gibraltar; later they operated from bases at Cuers, France, and Pisa,



The most long-lasting use of airships has been by the Goodyear Tire and Rubber

Company. The Pony was built in 1919 and the Pilgrim in 1923. After 1928 the

fleet was expanded with the Puritan, Volunteer, Mayflower, Vigilant, Defender,

Reliance, Resolute, Enterprise, Ranger, and Columbia. During the 1930s these

airships were used for advertising, and they barnstormed all over the United

States. During World War II, the fleet was used for reconnaissance by the U. S.

Navy. Three Goodyear blimps still operate, the newest, the Spirit of Akron,

which was launched in 1989, was for a short time the world’s largest operating

airship 205.5 ft, with a volume of 248,000 cu ft.

Goodyear no longer builds blimps, but other companies continue to produce and

operate the craft. Among new types are the smaller blimps, some remote-

controlled, that are tethered inside stadiums and used to provide television

audiences with bird’s-eye views of sports events.

In 1991, Westinghouse Airships launched the 220-ft long Sentinel 1000, the first

in a projected series of blimps to be used by the U. S. Defense Department for a

range of surveillance, communications, and patrol duties. The envelope of the

Sentinel 1000 is made of a mix of synthetic fibers that is impervious to weather

and almost invisible to radar.

Data collected in flight tests will aid in the development of the much-larger

Sentinal 5000. Twice the length of the Sentinal 1000, its envelope will be

seven times larger, with a 2.5 million-cu ft helium-gas capacity. It will carry

an 25,000-lb payload, including a 3-story, pressurized gondola, a crew of 15,

and extensive radar arrays and optical flight control systems. The craft will

be refuelable while it is under way, with refueling lines carried to it by the

ship-based helicopters. It will be launched in 1997.


The Hindenburg, originally designated the L. Z. 129, was a rigid airship built

by the firm of Luftschiffbau Zeppelin in Friedrichshafen, Germany. Completed

and tested in 1936, it was the world’s first transatlantic commercial airliner.

The airship was 804 ft long, had a maximum diameter of 135 ft, and was kept

aloft by 7,000,000 cu ft of hydrogen in 16 cells. Four 1,050-hp Daimler-Benz

diesel engines provided a top speed of 82 mph. In May 1936 the Hindenburg

inaugurated the first scheduled air service across the North Atlantic, between

Frankfurt am Main, Germany, and Lakehurst, N.J. It accommodated more than 70

passengers and had a dining room, a library and lounge with a grand piano, a

cocktail lounge, and promenades with large windows. The flight to the United

States took 60 hours, and the return trip to Europe, 50 hours. In 1936 the

Hindenburg carried more than 1,300 passengers and several thousand pounds of

mail and cargo on transatlantic flights.

While maneuvering to land at Lakehurst on May 6, 1937, the airship’s hydrogen

was ignited and the Hindenburg was destroyed by the resulting fire. Thirty-five

of the passengers and crew died, along with one member of the ground crew.

Claims and speculation that the Hindenburg was a victim of sabotage have never

been supported by evidence. The destruction of the Hindenburg marked the end of

the use of airships in world air commerce.

Загрузить файл

Похожие страницы:

  1. Sea Power Essay Research Paper INTRODUCTIONAmong the

    Реферат >> Остальные работы
    Sea Power Essay, Research Paper INTRODUCTION Among the most ... maritime air warfare. This essay will seek to trace the ... small non-rigid ?blimp? airships. Supporting these airship forces were ... and others, aircraft and airships contributed to the war at ...
  2. Science Notes Essay Research Paper Everything is

    Реферат >> Остальные работы
    Science Notes Essay, Research Paper Everything is made up of ... form the outer shells of each atom, and protons and neutrons ... ballonets decreases or increases the airships weight and it ascends or ...
  3. World War 1 Essay Research Paper

    Реферат >> Остальные работы
    World War 1 Essay, Research Paper “World War I: Total War” Europe ... . Germany would often send huge airships to bomb English and French ...
  4. Ferdinand Graf Von Zeppelin Essay Research Paper

    Реферат >> Остальные работы
    ... wanted to purchase the finished airships. Additionally he received a ... Zeppelin could force his research further and for the ... a company to manufacture airships, another to manufacture engines ... Encyclopedia 1995 Encarta Encyclopedia Airships http://science.coe. ...
  5. The Hindenburg Disaster Essay Research Paper

    Реферат >> Остальные работы
    ... nearly onehundred years ago. Airships are big controllable balloons, ... . Thereare three classes of airships, rigid, nonrigid and semirigid ... as if it hadbeen paper. They also stated that ... has been conducting extensive research on theaccident. They analyzed ...

Хочу больше похожих работ...

Generated in 0.0014388561248779