An airship, dirigible balloon or dirigible is a type of aerostat (lighter-than-air) aircraft that can navigate through the air flying under its own power. Aerostats use buoyancy from a lifting gas that is less dense than the surrounding air to achieve the lift needed to stay airborne.
In early dirigibles, the lifting gas was hydrogen, due to its high lifting capacity and ready availability. Still, its inherent flammability led to several fatal accidents, rendering hydrogen airships obsolete. The alternative lifting gas, helium, is not flammable, but is rare and relatively expensive. Significant amounts were first discovered in the United States and for a while helium was only available for airship usage in North America. Most airships built since the 1960s have used helium, though some have used hot air.
The bulk of an airship consists of the lighter-than-air envelope, which may either form the gasbag itself or contain some gas-filled cells. The engines, crew, and payload capacity necessary for the airship's operation are instead housed in the gondola, one or more enclosed platforms suspended below the envelope.
The main types of airship are non-rigid, semi-rigid, and rigid airships. Non-rigid airships, often called "blimps", rely solely on internal gas pressure to maintain the envelope shape. Semi-rigid airships maintain their shape by internal pressure, but have some form of supporting structure, such as a fixed keel, attached to it. Rigid airships have an outer structural framework that maintains the shape and carries all structural loads, while the lifting gas is contained in one or more internal gasbags or cells. Rigid airships were first flown by Count Ferdinand von Zeppelin, and the vast majority of rigid airships built were manufactured by the firm he founded, Luftschiffbau Zeppelin. As a result, rigid airships are often called zeppelins.
Airships were the first aircraft capable of controlled, powered flight and were most commonly used before the 1940s; their use declined as aeroplanes surpassed their capabilities. Their decline was accelerated by a series of high-profile accidents, including the 1930 crash and burning of the British R101 in France, the 1933 and 1935 storm-related crashes of the twin airborne aircraft carrier U.S. Navy helium-filled rigids, the USS Akron and USS Macon respectively, and the 1937 burning of the German hydrogen-filled Hindenburg. Since the 1960s, helium airships have been used where the ability to hover for extended periods outweighs the need for speed and manoeuverability, such as for advertising, tourism, camera platforms, geological surveys, and aerial observation.
During the pioneer years of aeronautics, terms such as "airship", "air-ship", "air ship", and "ship of the air" were used to refer to any navigable or dirigible flying machine. In 1919 Frederick Handley Page was reported as referring to "ships of the air", with smaller passenger types as "air yachts". In the 1930s, large intercontinental flying boats were also sometimes referred to as "ships of the air" or "flying-ships". Nowadays, the term "airship" is used only for powered, dirigible balloons, with sub-types being classified as rigid, semi-rigid, or non-rigid. Semi-rigid architecture is the more recent, following advances in deformable structures and the exigency of reducing the weight and volume of the airships. They have a minimal structure that maintains the shape in concert with the overpressure of the gas envelope.
An aerostat is an aircraft that remains aloft using buoyancy or static lift, as opposed to the aerodyne, which obtains lift by moving through the air. Airships are a type of aerostat. The term aerostat has also been used to indicate a tethered or moored balloon as opposed to a free-floating balloon. Aerostats today are capable of lifting a payload of 3,000 pounds (1,400 kg) to an altitude of more than 4.5 kilometres (2.8 mi) above sea level. They can also stay in the air for extended periods of time, particularly when powered by an on-board generator or if the tether contains electrical conductors. Because of this capability, aerostats can serve as platforms for telecommunications services. For instance, Platform Wireless International Corporation announced in 2001 that it would use a tethered 1,250 pounds (570 kg) airborne payload to deliver cellular phone service to a 140 miles (230 km) region in Brazil. The European Union's ABSOLUTE project was also reportedly exploring the use of tethered aerostat stations to provide telecommunications during disaster response.
A blimp is a non-rigid aerostat. In British usage, it refers to any non-rigid aerostat, including barrage balloons and other kite balloons, having a streamlined shape and stabilising tail fins. Some blimps may be powered dirigibles, as in early versions of the Goodyear Blimp. Later Goodyear dirigibles, though technically semi-rigid airships, have still been called "blimps" by the company.
The term zeppelin originally referred to airships manufactured by the German Zeppelin Company, which built and operated the first rigid airships in the early years of the twentieth century. The initials LZ, for Luftschiff Zeppelin (German for "Zeppelin airship"), were usually prefixed to their craft's serial identifiers.
Streamlined rigid (or semi-rigid) airships are often referred to as "Zeppelins", because of the fame that this company acquired due to the number of airships it produced, although its early rival was the Parseval semi-rigid design.
Hybrid airships fly with a positive aerostatic contribution, usually equal to the empty weight of the system, and the variable payload is sustained by propulsion or aerodynamic contribution.
Airships are classified according to their method of construction into rigid, semi-rigid, and non-rigid types.
A rigid airship has a rigid framework covered by an outer skin or envelope. The interior contains one or more gasbags, cells, or balloons to provide lift. Rigid airships are typically unpressurised and can be made to virtually any size. Most, but not all, of the German Zeppelin airships have been of this type.
A semi-rigid airship has some supporting structure, but the main envelope is held in shape by the internal pressure of the lifting gas. Typically, the airship has an extended, usually articulated keel running along the bottom of the envelope to stop it kinking in the middle by distributing suspension loads into the envelope, while also allowing lower envelope pressures.
Non-rigid airships are often called "blimps". Most, but not all, of the American Goodyear airships have been blimps.
A non-rigid airship relies entirely on internal gas pressure to retain its shape during flight. Unlike a rigid airship's gas envelope, the non-rigid airship's gas envelope has no compartments. However, it still typically has smaller internal bags containing air (ballonets). As altitude increases, the lifting gas expands, and air from the ballonets is expelled through valves to maintain the hull's shape. To return to sea level, the process is reversed: air is forced back into the ballonets by scooping air from the engine exhaust and using auxiliary blowers.
The envelope is the structure that contains the buoyant gas. Envelopes in the early 19th century were made from goldbeater's skin, selected for its low weight, relatively high strength, and impermeability compared to paper or linen. By the 1920s, natural rubber treated with cotton became the predominant elastomer used in envelope construction. Natural rubber was succeeded by neoprene in the 1930s and by Nylon and PET in the 1950s. A few airships have been metal-clad. The most successful of which is the Detroit ZMC-2, which logged 2265 hours of flight time from 1929 to 1941 before being scrapped, as it was considered too small for operational use on anti-submarine patrols.
The problem of the exact determination of the pressure on an airship envelope is still problematic and has fascinated major scientists such as Theodor Von Karman.