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172-520: The Hindenburg disaster was an airship accident that occurred on May 6, 1937, in Manchester Township, New Jersey , United States. The LZ 129 Hindenburg ( Luftschiff Zeppelin #129 ; Registration : D-LZ 129) was a German commercial passenger-carrying rigid airship , the lead ship of the Hindenburg class , the longest class of flying machine and the largest airship by envelope volume. It

344-514: A 2 hp (1.5 kW) single cylinder Daimler engine and flew 10 km (6 mi) from Canstatt to Kornwestheim . In 1897, an airship with an aluminum envelope was built by the Hungarian - Croatian engineer David Schwarz . It made its first flight at Tempelhof field in Berlin after Schwarz had died. His widow, Melanie Schwarz, was paid 15,000 marks by Count Ferdinand von Zeppelin to release

516-490: A better gliding angle and the ship almost flew herself down. A smoky fire was started on the ground to show the wind direction. The ship then made a long approach with a rate of fall of 100 feet per minute, and the lines were dropped when she was over the landing flag. When conditions were unusual, as in gusty and bumpy weather, the Graf was weighed off a little light, and the approach had to be fast and preferably long and low. When

688-640: A boat if the vehicle was forced to land in water. The airship was designed to be driven by three propellers and steered with a sail-like aft rudder. In 1784, Jean-Pierre Blanchard fitted a hand-powered propeller to a balloon, the first recorded means of propulsion carried aloft. In 1785, he crossed the English Channel in a balloon equipped with flapping wings for propulsion and a birdlike tail for steering. The 19th century saw continued attempts to add methods of propulsion to balloons. Rufus Porter built and flew scale models of his "Aerial Locomotive", but never

860-409: A clear escape route or were close to the bow of the ship, which hung burning in the air for too long for most of them to escape death. Most of the crew in the bow died in the fire, although at least one was filmed falling from the bow to his death. Most of the passengers who died were trapped in the starboard side of the passenger deck. Not only was the wind blowing the fire toward the starboard side, but

1032-517: A crew member as the suspect. Erich Spehl, a rigger on the Hindenburg who died of burns in the Infirmary, was named as a potential saboteur. Ten years later, Michael MacDonald Mooney's book The Hindenburg , which was based heavily on Hoehling's sabotage hypothesis, also identified Spehl as a possible saboteur; Mooney's book was made into the film The Hindenburg (1975), a mostly fictionalized account of

1204-432: A crucial role in maintaining stability and controlling the airship's attitude. Airships require a source of power to operate their propulsion systems. This includes engines, generators, or batteries, depending on the type of airship and its design. Fuel tanks or batteries are typically located within the envelope or gondola. To navigate safely and communicate with ground control or other aircraft, airships are equipped with

1376-457: A fashion similar to hot air balloons . The first to do so was flown in 1973 by the British company Cameron Balloons . Small airships carry their engine(s) in their gondola. Where there were multiple engines on larger airships, these were placed in separate nacelles, termed power cars or engine cars . To allow asymmetric thrust to be applied for maneuvering, these power cars were mounted towards

1548-414: A gallery 4 feet (1.2 m) wide. The top platform, at the height of 170 feet (52 m), from which passengers embarked and disembarked to and from the airships, was 40 feet (12 m) in diameter and encircled by a heavy parapet. The top rail of the parapet formed a track on which a gangway, let down from the airship, ran on wheels to give freedom for the airship to move around the tower as it swung with

1720-434: A lack of any method of open mooring meant that airships still suffered from engine failure, damage due to a change in weather conditions (storms) and operational difficulties involved in such anchoring systems. Multiple airships were lost under such circumstances. In an attempt to avoid the various issues with loading airships into their sheds and to prevent further accidents, engineers would often deflate their blimps, accepting

1892-446: A large difference in potential to form between the skin and the frame. In order to make up for the delay of more than 12 hours in its transatlantic flight, the Hindenburg passed through a weather front of high humidity and high electrical charge. Although the mooring lines were not wet when they first hit the ground and ignition took place four minutes after, Eckener theorised that they may have become wet in these four minutes. When

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2064-442: A long time. They may be wheel or track-mounted, and can be operated by a small crew. The general operating principle is broadly similar to the larger masts. Modern blimps may operate from mobile masts for months at a time without returning to their hangars. Developments in aerodynamics and structural designs as well as greater access to more advanced materials has allowed for airship technologies to become much more sophisticated over

2236-689: A long-forgotten past. Indoor and outdoor airships, used predominantly at sports games and in advertising require a modern mooring mast design, fitted with superior measuring devices that can provide an aural warning to the ground crew to move the airship and the mast inside when the atmospheric conditions are not suitable for outdoor storage. Other components such as cameras, mounting and demounting of fins and any repair operations are now made far safer with indoor mooring masts, utilised inside hangars to further promote freedoms of yawing, pitching, rolling and height-adjustability to moored airships. Smaller mobile masts have been used for small airships and blimps for

2408-765: A mast. Four high masts of the Cardington type were built along the proposed British Empire Airship Service routes, at Cardington itself, at Montreal (Canada), Ismailia ( Egypt ) and Karachi (then India, now in Pakistan). None of these survive. Similar masts were proposed at sites in Australia, Ceylon (now Sri Lanka ), Bombay , Keeling Islands , Kenya , Malta , at Ohakea in New Zealand, and in South Africa. The general site specifications can be found in documents produced by

2580-454: A minute because I've lost my voice. This is the worst thing I've ever witnessed. The newsreel footage was shot by four newsreel camera teams: Pathé News , Movietone News , Hearst News of the Day , and Paramount News . Al Gold of Fox Movietone News later received a Presidential Citation for his work. One of the most widely circulated photographs of the disaster (see photo at top of article), showing

2752-514: A mixture of solar-powered engines and conventional jet engines, would use only an estimated 8 percent of the fuel required by jet aircraft . Furthermore, utilizing the jet stream could allow for a faster and more energy-efficient cargo transport alternative to maritime shipping . This is one of the reasons why China has embraced their use recently. In 1670, the Jesuit Father Francesco Lana de Terzi , sometimes referred to as

2924-659: A mooring mast at the bow to cater for small dirigibles carried on board. Around 1925, the Royal Navy considered the monitor , HMS Roberts , for conversion to a mobile airship base with a mooring mast and fueling capabilities, but nothing came of this proposal. By 1912, dirigibles were widely acknowledged as the future of air travel and their flexibility as both civilian transporters and military vehicles meant that continual advancements were made to both airships and their mooring masts. The mooring mast or “open-mooring” allowed airships to accompany armies in their manoeuvres through

3096-494: A number of additions were made to Torres Quevedo's traditional design. Examples of these include cradles and lattices that were attached to mobile mooring structures to further limit the amount of yawing and pitching, and pyramidal towing masts known as “iron horses” that were able to extend the height of the original mast structure. Between 1900 and 1939, ground handling methods for rigid-airships were constantly developed on. Split into three main systems; The German, The British and

3268-467: A number of passengers to safety) jammed shut during the crash, further trapping those passengers on the starboard side. Nonetheless, some did manage to escape from the starboard passenger decks. By contrast, all but a few of the passengers on the port side of the ship survived the fire, with some of them escaping virtually unscathed. Although the best-remembered airship disaster, it was not the worst. Just over twice as many (73 of 76 on board) had perished when

3440-475: A paper entitled " Mémoire sur l'équilibre des machines aérostatiques " (Memorandum on the equilibrium of aerostatic machines) presented to the French Academy on 3 December 1783. The 16 water-color drawings published the following year depict a 260-foot-long (79 m) streamlined envelope with internal ballonets that could be used for regulating lift: this was attached to a long carriage that could be used as

3612-560: A payload of 1.5 tons. Bland believed that the machine could be driven at 80 km/h (50 mph) and could fly from Sydney to London in less than a week. In 1852, Henri Giffard became the first person to make an engine-powered flight when he flew 27 km (17 mi) in a steam-powered airship . Airships would develop considerably over the next two decades. In 1863, Solomon Andrews flew his aereon design, an unpowered, controllable dirigible in Perth Amboy, New Jersey and offered

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3784-506: A pivoted platform so that it can turn in a circle about the column and remain end-on to the wind; 3)   The “crab” or winch receiving the end of a cable attached to the airship and the point of attachment on the airship; and 4)   The cone connected to the upper end of the column, conforming to the end of the airship' Mooring an airship by the nose to the top of a mast or tower of some kind might appear to be an obvious solution, but dirigibles had been flying for some years before

3956-466: A plank extended from the blimp to the platform on the 102nd floor. It was proposed that buildings were to be knocked down to allow for a “sky terminal” but the costs to this were far too great, so it was dropped. John Tuaranac discusses how only one dirigible ever made contact with the Empire State Building in 1931, and it was “brief at best”: ‘ A privately-owned dirigible, fitted with a long rope

4128-439: A potential bomb threat, there is no evidence they were on board to do so, and military observers were present on previous flights to study navigational techniques and weather forecasting practices of the airship crew. However, opponents of the sabotage hypothesis argued that only speculation supported sabotage as a cause of the fire, and no credible evidence of sabotage was produced at any of the formal hearings. Erich Spehl died in

4300-494: A public demonstration flight in 1878 of his hand-powered one-man rigid airship, and went on to build and sell five of his aircraft. In 1874, Micajah Clark Dyer filed U.S. Patent 154,654 "Apparatus for Navigating the Air". It is believed successful trial flights were made between 1872 and 1874, but detailed dates are not available. The apparatus used a combination of wings and paddle wheels for navigation and propulsion. In operating

4472-435: A range of instruments, including GPS systems, radios, radar, and navigation lights. Some airships have landing gear that allows them to land on runways or other surfaces. This landing gear may include wheels, skids, or landing pads. The main advantage of airships with respect to any other vehicle is that they require less energy to remain in flight, compared to other air vehicles. The proposed Varialift airship, powered by

4644-478: 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 kind of supporting structure but the main envelope is held in shape by the internal pressure of

4816-465: A safe, quick and relatively inexpensive ‘universal’ docking system that worked well for all types and sizes of blimps whether they were non-rigid, semi-rigid or rigid and which could withstand meteorological events. After their involvement in WWI as passenger carriers, aerial reconnaissance vessels and long-distance bombers, military authorities lost interest in airships. However, considerable advancements made in

4988-418: A safety roll when he landed. He injured his ankle nonetheless, and was dazedly crawling away when a member of the ground crew came up, slung the diminutive Späh under one arm, and ran him clear of the fire. Of the 12 crewmen in the bow of the airship, only three survived. Four of these 12 men were standing on the mooring shelf, a platform up at the very tip of the bow from which the forwardmost landing ropes and

5160-511: A similar manner to fallen war heroes, and grassroots movements to fund zeppelin construction (as happened after the 1908 crash of the LZ 4 ) were expressly forbidden by the Nazi government . There had been a series of other airship accidents prior to the Hindenburg fire; many were caused by bad weather. The Graf Zeppelin had flown safely for more than 1.6 million kilometers (1.0 million miles), including

5332-506: A successful full-size implementation. The Australian William Bland sent designs for his " Atmotic airship " to the Great Exhibition held in London in 1851, where a model was displayed. This was an elongated balloon with a steam engine driving twin propellers suspended underneath. The lift of the balloon was estimated as 5 tons and the car with the fuel as weighing 3.5 tons, giving

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5504-410: A thin gastight metal envelope, rather than the usual rubber-coated fabric envelope. Only four metal-clad ships are known to have been built, and only two actually flew: Schwarz 's first aluminum rigid airship of 1893 collapsed, while his second flew; the nonrigid ZMC-2 built for the U.S. Navy flew from 1929 to 1941 when it was scrapped as too small for operational use on anti-submarine patrols; while

5676-541: A total destruction time of about 16 seconds. Some of the duralumin framework of the airship was salvaged and shipped back to Germany, where it was recycled and used in the construction of military aircraft for the Luftwaffe , as were the frames of the LZ 127 Graf Zeppelin and LZ 130 Graf Zeppelin II when both were scrapped in 1940. In the days after the disaster, a board of inquiry

5848-415: 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

6020-474: A very tall mast in the middle of an urban area. Another unique example may be found in Birmingham, Alabama, atop the former Thomas Jefferson Hotel . Now known as Thomas Jefferson Tower, the mast has been recently restored to its original appearance. It was originally erected in 1929 as a way for the hotel to capitalize on the futuristic public image of airships inspired by the success of Graf Zeppelin . However,

6192-496: A vessel is propelled in water. An instrument answering to a rudder is attached for guiding the machine. A balloon is to be used for elevating the flying ship, after which it is to be guided and controlled at the pleasure of its occupants. More details can be found in the book about his life. In 1883, the first electric-powered flight was made by Gaston Tissandier , who fitted a 1.5 hp (1.1 kW) Siemens electric motor to an airship. The first fully controllable free flight

6364-435: Is generally hydrogen, helium or hot air. Hydrogen gives the highest lift 1.1 kg/m (0.069 lb/cu ft) and is inexpensive and easily obtained, but is highly flammable and can detonate if mixed with air. Helium is completely non flammable, but gives lower performance-1.02 kg/m (0.064 lb/cu ft) and is a rare element and much more expensive. Thermal airships use a heated lifting gas, usually air, in

6536-591: Is known as a vacuum airship . In 1709, the Brazilian-Portuguese Jesuit priest Bartolomeu de Gusmão made a hot air balloon, the Passarola, ascend to the skies, before an astonished Portuguese court. It would have been on August 8, 1709, when Father Bartolomeu de Gusmão held, in the courtyard of the Casa da Índia , in the city of Lisbon, the first Passarola demonstration. The balloon caught fire without leaving

6708-499: Is no evidence suggesting an attempted suicide or official report confirming the presence of a Luger pistol. Initially, before inspecting the scene himself, Eckener mentioned the possibility for a shot as the cause of the disaster, because of threatening letters they received. At the German enquiry Eckener discounted a shot – among many possibilities – as the cause as nearly impossible and highly improbable. Hugo Eckener argued that

6880-632: 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 envelope of an airship may form the gasbag, or it may contain a number of gas-filled cells. An airship also has engines, crew, and optionally also payload accommodation, typically housed in one or more gondolas suspended below

7052-399: Is the more recent, following advances in deformable structures and the exigency of reducing weight and volume of the airships. They have a minimal structure that keeps the shape jointly with 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

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7224-541: The New York Daily News . The newsreels and photographs, along with Morrison's passionate reporting, shattered public and industry faith in airships and marked the end of the giant passenger-carrying airships. Also contributing to the downfall of Zeppelins was the arrival of international passenger air travel and Pan American Airlines . Heavier-than-air aircraft regularly crossed the Atlantic and Pacific much faster than

7396-483: The Franco-Prussian war and was intended as an improvement to the balloons used for communications between Paris and the countryside during the siege of Paris , but was completed only after the end of the war. In 1872, Paul Haenlein flew an airship with an internal combustion engine running on the coal gas used to inflate the envelope, the first use of such an engine to power an aircraft. Charles F. Ritchel made

7568-557: The Hindenburg burned out within about ninety seconds. At the time of the disaster, sabotage was commonly put forward as the cause of the fire, initially by Hugo Eckener , former head of the Zeppelin Company and the "old man" of German airships. In initial reports, before inspecting the accident, Eckener mentioned the possibility of a shot as the cause of the disaster, because of threatening letters that had been received, but did not rule out other causes. Eckener later publicly endorsed

7740-585: The Hindenburg had performed this maneuver only a few times in 1936 while landing in Lakehurst. At 7:09 p.m., the airship made a sharp full-speed left turn to the west around the landing field because the ground crew was not ready. At 7:11 p.m., it turned back toward the landing field and valved gas. All engines idled ahead and the airship began to slow. Captain Pruss ordered aft engines full astern at 7:14 p.m. while at an altitude of 394 ft (120 m), to try to brake

7912-510: The Hindenburg made its final approach to the Lakehurst Naval Air Station. This was to be a high landing, known as a flying moor because the airship would drop its landing ropes and mooring cable at a high altitude, and then be winched down to the mooring mast . This type of landing maneuver would reduce the number of ground crewmen but would require more time. Although the high landing was a common procedure for American airships,

8084-641: The Parc Saint Cloud to and around the Eiffel Tower and back in under thirty minutes. This feat earned him the Deutsch de la Meurthe prize of 100,000 francs . Many inventors were inspired by Santos-Dumont's small airships. Many airship pioneers, such as the American Thomas Scott Baldwin , financed their activities through passenger flights and public demonstration flights. Stanley Spencer built

8256-459: The helium -filled U.S. Navy scout airship USS  Akron crashed at sea off the New Jersey coast four years earlier on April 4, 1933. Werner Franz , the 14-year-old cabin boy, was initially dazed on realizing the ship was on fire but when a water tank above him burst open, putting out the fire around him, he was spurred to action. He made his way to a nearby hatch and dropped through it just as

8428-443: The "Father of Aeronautics ", published a description of an "Aerial Ship" supported by four copper spheres from which the air was evacuated. Although the basic principle is sound, such a craft was unrealizable then and remains so to the present day, since external air pressure would cause the spheres to collapse unless their thickness was such as to make them too heavy to be buoyant. A hypothetical craft constructed using this principle

8600-556: The 130 km/h (80 mph) speed of the Hindenburg . The one advantage that the Hindenburg had over such aircraft was the comfort that it afforded its passengers. In contrast to the media coverage in the United States, media coverage of the disaster in Germany was more subdued. Although some photographs of the disaster were published in newspapers, the newsreel footage was not released until after World War II. German victims were memorialized in

8772-487: The 1920s and 1930s masts were built in many countries. At least two were mounted on ships. Without doubt the tallest mooring mast ever designed was the spire of the Empire State Building which was originally constructed to serve as a mooring mast, although soon after converted for use as a television and radio transmitter tower due to the discovered infeasibility of mooring an airship, for any length of time, to

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8944-417: The 1929 nonrigid Slate Aircraft Corporation City of Glendale collapsed on its first flight attempt. A ballonet is an air bag inside the outer envelope of an airship which, when inflated, reduces the volume available for the lifting gas, making it more dense. Because air is also denser than the lifting gas, inflating the ballonet reduces the overall lift, while deflating it increases lift. In this way,

9116-401: The 1937 burning of the German hydrogen -filled Hindenburg . From the 1960s, helium airships have been used where the ability to hover for a long time outweighs the need for speed and manoeuvrability, such as 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

9288-555: The 1940s; their use decreased as their capabilities were surpassed by those of aeroplanes. 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

9460-403: The 20th century as it allowed an unprecedented accessibility to dirigibles, negating the manhandling that was necessary when an airship was placed into its hangar. Due to his inventions, mooring masts were designed simply to allow airships to be docked on ships, land and even atop buildings, all while withstanding gusts and adverse weather conditions. Such versatility meant that mooring masts became

9632-444: The 97 people on board (36 passengers and 61 crewmen), and an additional fatality on the ground. The disaster was the subject of newsreel coverage , photographs and Herbert Morrison 's recorded radio eyewitness reports from the landing field, which were broadcast the next day. A variety of theories have been put forward for both the cause of ignition and the initial fuel for the ensuing fire. The publicity shattered public confidence in

9804-565: The American, these procedural techniques each has major advantages and disadvantages. The British system (as discussed in Gabriel Khoury's Airship Technology ) is most similar to Torres Quevedo's design, which makes sense seeing as his patent was the main influence for British engineers concerned with mooring dirigibles at the time. All three major rigid airship ground handling systems are extensively discussed in his book. The British mooring mast

9976-455: The British government. German mooring methods differed significantly from those adopted by the British. To quote Pugsley (1981): "the Germans, originally for ease of transport and for economy, developed a system using much lower masts. The nose of the ship was tethered as before to the mast head, which was only a little higher than the semi-diameter of the ship's hull. The lower fin at the stern

10148-515: The Germans never used mooring masts until the Graf Zeppelin entered service in 1928, and never moored to high masts. To some extent this probably reflects the conservatism of the Zeppelin company operations. Long experience in handling airships in all sorts of conditions was valued and innovations or significant changes in practice were unlikely to be adopted unless clear advantages were apparent. In

10320-734: The Luftschiff Zeppelin LZ1 made its first flight. This led to the most successful airships of all time: the Zeppelins, named after Count Ferdinand von Zeppelin who began working on rigid airship designs in the 1890s, leading to the flawed LZ1 in 1900 and the more successful LZ2 in 1906. The Zeppelin airships had a framework composed of triangular lattice girders covered with fabric that contained separate gas cells. At first multiplane tail surfaces were used for control and stability: later designs had simpler cruciform tail surfaces. The engines and crew were accommodated in "gondolas" hung beneath

10492-470: The Navy landing party for the airship, and a survivor of the crashed American military airship, USS Shenandoah , shouted the famous order, "Navy men, Stand fast!!" to successfully rally his personnel to conduct rescue operations despite the considerable danger from the flames. The time that it took from the first signs of disaster to the bow crashing to the ground is reported as 32, 34 or 37 seconds. Since none of

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10664-464: The US a mix of techniques were applied, and airships moored to both high and stub masts. Large ground crews (or ‘landing parties’) of up to 340 men were required to manage the large airships Akron and Macon at landing or on the ground, before they could be attached to the stub mast. Being part of a ground crew was not risk-free. In gusty conditions, or if mis-handled, an airship could suddenly rise. If

10836-447: The US intended to use large airships for long-range maritime patrol operations, experiments were made in mooring airships to a mast mounted on the ship USS  Patoka . Over time the airships USS  Shenandoah , Los Angeles , and Akron all moored to the mast mounted at the stern of the ship, and operated using her as a base for resupply, refuelling, and gassing. The Spanish seaplane carrier Dédalo (1922–1935) carried

11008-573: The United States that were scheduled for its second year of commercial service. American Airlines had contracted with the operators of the Hindenburg to shuttle passengers from Lakehurst to Newark for connections to airplane flights. Except for strong headwinds that slowed its progress, the Atlantic crossing of the Hindenburg was unremarkable until the airship attempted an early-evening landing at Lakehurst three days later on May 6.Although carrying only half its full capacity of passengers (36 of 70) and crewmen (61, including 21 crewman trainees) during

11180-458: The Zeppelin's final flight. The producers of the film were sued by Hoehling for plagiarism, but Hoehling's case was dismissed because he had presented his sabotage hypothesis as historical fact, and it is not possible to claim ownership of historical facts. Hoehling claimed the following in naming Spehl as the culprit: Hoehling's (and later Mooney's) hypothesis goes on to say that it is unlikely that Spehl wanted to kill people, and that he intended

11352-436: The accident flight, the Hindenburg was fully booked for its return flight. Many of the passengers with tickets to Germany were planning to attend the coronation of King George VI and Queen Elizabeth in London the following week. The airship was hours behind schedule when it passed over Boston on the morning of May 6, and its landing at Lakehurst was expected to be further delayed because of afternoon thunderstorms. Advised of

11524-443: 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 used was hydrogen , due to its high lifting capacity and ready availability, but the inherent flammability led to several fatal accidents that rendered hydrogen airships obsolete. The alternative lifting gas, helium gas

11696-491: The air" meant any kind of 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

11868-454: The aircraft what to do and it does it" (Peter DeRobertis). Since the Hindenburg disaster of 1937, whose tragic docking remains an icon of aerospace gone wrong, modern-day airships are now designed as hybrids of lighter-than-air and fixed-wing aircraft. At a fraction of the cost and fuel of regular aircraft, modern dirigibles can carry enormous payloads without requiring such vast amounts of tarmac necessary for conventional air travel. Despite

12040-519: The airfield at Lakehurst". By the time he left the hotel the next morning to travel to Berlin for a briefing on the disaster, the only answer that he had for the reporters waiting outside to question him was that based on what he knew, the Hindenburg had "exploded over the airfield"; sabotage might be a possibility. However, as he learned more about the disaster, particularly that the airship had burned rather than actually "exploded", he grew more and more convinced that static discharge, rather than sabotage,

12212-414: The airship back to Lakehurst to make its landing almost half a day late. As this would leave much less time than anticipated to service and prepare the airship for its scheduled departure back to Europe, the public was informed that they would not be permitted at the mooring location or be able to come aboard the Hindenburg during its stay in port. Around 7:00 p.m., at an altitude of 650 feet (200 m),

12384-458: The airship crashing with the mooring mast in the foreground, was photographed by Sam Shere of International News Photos. When the fire started he did not have the time to put the camera to his eye and shot the photo "from the hip". Murray Becker of Associated Press photographed the fire engulfing the airship while it was still on even keel using his 4 × 5 Speed Graphic camera. His next photograph (see right), shows flames bursting out of

12556-469: The airship to burn after the landing. However, with the ship already over 12 hours late, Spehl was unable to find an excuse to reset the timer on his bomb. It has been suggested that Adolf Hitler himself ordered the Hindenburg to be destroyed in retaliation for Eckener's anti-Nazi opinions. Since the publication of Hoehling's book, most airship historians, including Douglas Robinson, have dismissed Hoehling's sabotage hypothesis because no solid evidence

12728-415: The airship to swing around the mast with the wind. In some places the stub mast was mounted on rails and could be drawn into the airship hangar, guiding the nose of the ship while the tail was controlled by the carriage attached to the rear gondola. Airships designed for landing on the ground had pneumatic bumper bags or undercarriage wheels under the main and rear gondolas (or tail fin). Dick states that

12900-437: The airship to weathervane with changes of wind direction ( see Fig.1 ). The use of a metal column erected on the ground, the top of which the bow or stem would be directly attached to (by a cable) would allow a dirigible to be moored at any time, in the open, regardless of wind speeds. Additionally, Torres Quevedo's design called for the improvement and accessibility of temporary landing sites, where airships were to be moored for

13072-412: The airship was over the field the engines had to be reversed for some time to stop her, and this also helped to get the nose down. Yaw lines dropped from the ship's nose were drawn out to Port and Starboard by thirty men each, while twenty more on each side pulled the ship down with spider lines (so called because twenty short lines radiated like the legs of a spider from a block). When the airship reached

13244-466: The airship's back a good minute before the fire broke out. Standing outside the main gate to the Naval Air Station, he watched, together with his wife and son, as the Zeppelin approached the mast and dropped her bow lines. A minute thereafter, by Mr. Heald's estimation, he first noticed a dim "blue flame" flickering along the backbone girder about one-quarter the length abaft the bow to the tail. There

13416-446: The airship. At 7:17 p.m., the wind shifted direction from east to southwest, and Captain Pruss ordered a second sharp turn starboard , making an s-shaped flightpath towards the mooring mast. At 7:18 p.m., as the final turn progressed, Pruss ordered 300, 300, and 500 kg (660, 660, and 1100 lb) of water ballast in successive drops because the airship was stern-heavy. The forward gas cells were also valved. As these measures failed to bring

13588-479: The airship. A suspect favored by Commander Rosendahl, Captain Pruss, and others among the Hindenburg's crew, was passenger Joseph Späh, a German acrobat who survived the fire. He brought with him a dog, a German shepherd named Ulla, as a surprise for his children. He reportedly made a number of unaccompanied visits to feed his dog, who was being kept in a freight room near the stern of the ship. Those who suspected Späh based their suspicions primarily on those trips into

13760-473: The axial walkway, bursting through the bow (and the bow gas cells) like a blowtorch. The three men from the forward section who survived (elevatorman Kurt Bauer, cook Alfred Grözinger, and electrician Josef Leibrecht) were those furthest aft of the bow, and two of them (Bauer and Grözinger) happened to be standing near two large triangular air vents, through which cool air was being drawn by the fire. Neither of these men sustained more than superficial burns. Most of

13932-410: The ballonet can be used to adjust the lift as required by controlling the buoyancy. By inflating or deflating ballonets strategically, the pilot can control the airship's altitude and attitude. Ballonets may typically be used in non-rigid or semi-rigid airships, commonly with multiple ballonets located both fore and aft to maintain balance and to control the pitch of the airship. Lifting gas

14104-498: 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"), usually prefixed their craft's serial identifiers. Streamlined rigid (or semi-rigid) airships are often referred to as "Zeppelins", because of

14276-405: The construction and operation of both dirigibles themselves and mooring technologies meant that airships were soon developed by civilian companies and other government departments. In 1929, the Empire State Building was proclaimed to be the tallest building in the world, topped with a dirigible mooring mast that could ‘accommodate passengers for the already existing transatlantic routes, and for

14448-440: The crash or in the fire. The majority of the victims were burned to death, while others died jumping from the airship at an excessive height, or as a consequence of either smoke inhalation or falling debris. Six other crew members, three passengers, and Allen Hagaman died in the following hours or days, mostly as a result of the burns. The majority of the crewmen who died were up inside the ship's hull, where they either did not have

14620-583: The design of the Campbell Air Ship, designed by Professor Peter C. Campbell, was built by the Novelty Air Ship Company. It was lost at sea in 1889 while being flown by Professor Hogan during an exhibition flight. From 1888 to 1897, Friedrich Wölfert built three airships powered by Daimler Motoren Gesellschaft -built petrol engines, the last of which, Deutschland , caught fire in flight and killed both occupants in 1897. The 1888 version used

14792-509: The device to the U.S. Military during the Civil War. He flew a later design in 1866 around New York City and as far as Oyster Bay, New York. This concept used changes in lift to provide propulsive force, and did not need a powerplant. In 1872, the French naval architect Dupuy de Lome launched a large navigable balloon, which was driven by a large propeller turned by eight men. It was developed during

14964-399: The disaster was preserved. Parts of Morrison's broadcast were later dubbed onto newsreel footage. That gave the impression that the words and film were recorded together, but that was not the case. It's practically standing still now they've dropped ropes out of the nose of the ship; and (uh) they've been taken ahold of down on the field by a number of men. It's starting to rain again; it's...

15136-719: The disuse of commercial airships popular in the early 20th-century, the notion that airships represent the future of air cargo is being revived by a new generation of entrepreneurs. Modern-day mooring masts are still developed on for the utilisation of indoor and outdoor dirigibles. Used mainly at sports games and in advertising, a mooring mast is used to secure these airships and keep them safe in storage. As they traditionally occupy great amounts of space, many engineers now design mooring masts as easily foldable and portable stands with long legs for adequate ground-stability. Such mechanisms employ spring-activated quick-response rods, with special design emphasis placed on kinematic elements to ensure

15308-412: The engine controls, throttle etc., mounted directly on the engine. Instructions were relayed to them from the pilot's station by a telegraph system , as on a ship. If fuel is burnt for propulsion, then progressive reduction in the airship's overall weight occurs. In hydrogen airships, this is usually dealt with by simply venting cheap hydrogen lifting gas. In helium airships water is often condensed from

15480-515: The engine exhaust and using auxiliary blowers. The envelope itself is the structure, including textiles that contain the buoyant gas. Internally two ballonets are generally placed in the front part and in the rear part of the hull and contains air. 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 . A few airships have been metal-clad , with rigid and nonrigid examples made. Each kind used

15652-416: 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

15824-455: The exhaust and stored as ballast. To control the airship's direction and stability, it is equipped with fins and rudders. Fins are typically located on the tail section and provide stability and resistance to rolling. Rudders are movable surfaces on the tail that allow the pilot to steer the airship left or right. The empennage refers to the tail section of the airship, which includes the fins, rudders, and other aerodynamic surfaces. It plays

15996-523: 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

16168-423: The financial loss and time cost of any damage caused by dismantling it out in the open. To find a resolution to the slew of problems faced by airship engineers to dock dirigibles, Spanish engineer and inventor Leonardo Torres Quevedo drew up designs of a ‘docking station’ and made alterations to airship designs. In 1910, Torres Quevedo proposed the idea of attaching an airship's nose to a mooring mast and allowing

16340-405: The fire and was therefore unable to refute the accusations that surfaced a quarter of a century later. The FBI investigated Joseph Späh and reported finding no evidence of Späh having any connection to a sabotage plot. According to his wife, Evelyn, Späh was quite upset over the accusations – she later recalled that her husband was outside their home cleaning windows when he first learned that he

16512-412: The fire started. The flames quickly spread forward first consuming cells 1 to 9, and the rear end of the structure imploded. Almost instantly, two tanks (it is disputed whether they contained water or fuel) burst out of the hull as a result of the shock of the blast. Buoyancy was lost on the stern of the ship, and the bow lurched upwards while the ship's back broke; the falling stern stayed in trim. As

16684-518: The fire was started by an electric spark which was caused by a buildup of static electricity on the airship. The spark ignited hydrogen on the outer skin. Proponents of the static spark hypothesis point out that the airship's skin was not constructed in a way that allowed its charge to be distributed evenly throughout the craft. The skin was separated from the duralumin frame by non-conductive ramie cords which had been lightly covered in metal to improve conductivity but not very effectively, allowing

16856-464: The fire, and then to subsequently have died at area hospitals during the night or early the following morning. Hydrogen fires are less destructive to immediate surroundings than gasoline explosions because of the buoyancy of diatomic hydrogen, which causes the heat of combustion to be released upwards more than circumferentially as the leaked mass ascends in the atmosphere; hydrogen fires are more survivable than fires of gasoline or wood. The hydrogen in

17028-461: The first circumnavigation of the globe by an airship. The Zeppelin company's promotions had prominently featured the fact that no passenger had been injured on any of its airships. There were a total of 35 deaths out of 97 people on the airship, including 13 of the 36 passengers and 22 of the 61 crew; most survivors were severely burned. Among the killed was also one ground crewman, civilian linesman Allen Hagaman. Ten passengers and 16 crewmen died in

17200-469: The first British airship with funds from advertising baby food on the sides of the envelope. Others, such as Walter Wellman and Melvin Vaniman , set their sights on loftier goals, attempting two polar flights in 1907 and 1909, and two trans-Atlantic flights in 1910 and 1912. Mooring mast Airship mooring masts can be broadly divided into fixed high masts and fixed or mobile low (or ‘stub’) masts. In

17372-415: The first attempted solution that partially overcame the ground-handling difficulties, a shed that floated on water which could turn freely and automatically align its long axis with the direction of the wind. This meant that airships could now land regardless of air currents. Airship design was then altered to allow blimps to float on water so that they could be placed into their water hangars more easily, but

17544-406: The first sign of trouble he smashed the window with his movie camera with which he had been filming the landing (the film survived the disaster). As the ship neared the ground he lowered himself out the window and hung onto the window ledge, letting go when the ship was perhaps 20 feet (6.1 m) above the ground. His acrobat's instincts kicked in, and Späh kept his feet under him and attempted to do

17716-413: The following decade. High and low masts were experimented with by French, English, American and German engineers in order to determine which technique was the most effective in terms of stability, cost, ground-handling and their ability to allow blimps to weathervane and therefore minimise outdoor-related damage. The procedures for mooring to either a low or high mast were the same, with the blimp approaching

17888-402: The forward part of the ship was briefly rebounding into the air. He began to run toward the starboard side, but stopped and turned around and ran the other way because wind was pushing the flames in that direction. He escaped without injury and was the last surviving crew member when he died in 2014. The last survivor, Werner G. Doehner , died November 8, 2019. At the time of the disaster, Doehner

18060-406: The front bulkhead of gas cell 4, which "suddenly disappeared by the heat". As other gas cells started to catch fire, the fire spread more to the starboard side and the ship dropped rapidly. Although the landing was being filmed by cameramen from four newsreel teams and at least one spectator, with numerous photographers also being at the scene, no footage or photographs are known to exist of the moment

18232-400: The giant, passenger-carrying rigid airship and marked the abrupt end of the airship era . The Hindenburg made ten trips to the United States in 1936. After opening its 1937 season by completing a single round-trip passage to Rio de Janeiro , Brazil, in late March, the Hindenburg departed from Frankfurt , Germany, on the evening of May 3, on the first of ten round trips between Europe and

18404-464: The ground crew did not immediately let go of the handling lines they risked being carried off their feet. In one famous incident captured on movie film in 1932, during the landing of the US airship Akron , three men were carried off their feet in this way, two to fall to their deaths after a short time. The third managed to improve his hold on the handling rope until he could be hauled into the airship. At least two ships have mounted mooring masts. As

18576-425: The ground crew grabbed the mooring lines. At 7:25 p.m., a few witnesses saw the fabric ahead of the upper fin flutter as if gas was leaking. Others reported seeing a dim blue flame – possibly static electricity , or St. Elmo's Fire – moments before the fire on top and in the back of the ship near the point where the flames first appeared. Several other eyewitness testimonies suggest that the first flame appeared on

18748-436: The ground, but, in a second demonstration, it rose to 95 meters in height. It was a small balloon of thick brown paper, filled with hot air, produced by the "fire of material contained in a clay bowl embedded in the base of a waxed wooden tray". The event was witnessed by King John V of Portugal and the future Pope Innocent XIII . A more practical dirigible airship was described by Lieutenant Jean Baptiste Marie Meusnier in

18920-402: The ground, causing the bow to bounce up slightly as one final gas cell burned away. At this point, most of the fabric on the hull had also burned away and the bow finally crashed to the ground. Although the hydrogen had finished burning, the Hindenburg 's diesel fuel burned for several more hours. In the face of this catastrophe, Chief Petty Officer Frederick J. "Bull" Tobin, in command of

19092-401: The ground, fifty men held the control car rails and twenty held those of the after car. With thirty men in reserve, the ground crew totalled two hundred men. The ground crew would then walk the Graf to a short, or ‘stub’, mast, to which the nose of the airship would be attached. The airship would then rest on the ground with its rear gondola attached to a movable weighted carriage that enabled

19264-476: The hull driving propellers attached to the sides of the frame by means of long drive shafts. Additionally, there was a passenger compartment (later a bomb bay ) located halfway between the two engine compartments. Alberto Santos-Dumont was a wealthy young Brazilian who lived in France and had a passion for flying. He designed 18 balloons and dirigibles before turning his attention to fixed-winged aircraft. On 19 October 1901 he flew his airship Number 6 , from

19436-518: The industrialist Carl Berg from his exclusive contract to supply Schwartz with aluminium . From 1897 to 1899, Konstantin Danilewsky, medical doctor and inventor from Kharkiv (now Ukraine , then Russian Empire ), built four muscle-powered airships, of gas volume 150–180 m (5,300–6,400 cu ft). About 200 ascents were made within a framework of experimental flight program, at two locations, with no significant incidents. In July 1900,

19608-496: The leaking hydrogen. In his book LZ-129 Hindenburg (1964), Zeppelin historian Douglas Robinson commented that although ignition of free hydrogen by static discharge had become a favored hypothesis, no such discharge was seen by any of the witnesses who testified at the official investigation into the accident in 1937. He continues: But within the past year, I have located an observer, Professor Mark Heald of Princeton, New Jersey, who undoubtedly saw St. Elmo's Fire flickering along

19780-538: 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

19952-413: The machinery the wings receive an upward and downward motion, in the manner of the wings of a bird, the outer ends yielding as they are raised, but opening out and then remaining rigid while being depressed. The wings, if desired, may be set at an angle so as to propel forward as well as to raise the machine in the air. The paddle-wheels are intended to be used for propelling the machine, in the same way that

20124-413: The masts are not placed under great stresses from the weight of the airships. A modern-day solution to the once large mooring towers is portable and foldable masts which guarantee that indoor and outdoor blimps and their masts do not consume a great amount of space. For outdoor airships, spring-loaded devices are incorporated, fitted with alarms which notify ground crews and operators when wind speeds exceed

20296-551: The men standing along the bow stairway either fell aft into the fire, or tried to leap from the ship when it was still too high in the air. Three of the four men standing on the mooring shelf inside the very tip of the bow were actually taken from the wreck alive, though one (Erich Spehl, a rigger) died shortly afterwards in the Air Station's infirmary, and the other two (helmsman Alfred Bernhard and apprentice elevatorman Ludwig Felber) were reported by newspapers to have initially survived

20468-416: The mooring mast and all the folks between it. This is terrible; this is one of the worst of the worst catastrophes in the world. Oh it's... [unintelligible] its flames... Crashing, oh! Oh, four or five hundred feet into the sky, and it's a terrific crash, ladies and gentlemen. There's smoke, and there's flames, now, and the frame is crashing to the ground, not quite to the mooring mast. Oh, the humanity, and all

20640-669: The mooring mast made its appearance. The first airship known to have been moored to a mast was HMA (His Majesty's Airship) No.1 , named the ‘Mayfly’, on 22 May 1911. The 38 ft (12 m) mast was mounted on a pontoon, and a windbreak of cross-yards with strips of canvas were attached to it. However, the windbreak caused the ship to yaw badly, and she became more stable when it was removed, withstanding winds gusting up to 43 miles per hour (69 km/h). Further experiments in mooring blimps to cable-stayed lattice masts were carried out during 1918. Mooring mast technology following Leonardo Torres Quevedo's design became widely utilised in

20812-400: The newsreel cameras were filming the airship when the fire first started, the time of the start can only be estimated from various eyewitness accounts and the duration of the longest footage of the crash. One analysis by NASA 's Addison Bain gives the flame front spread rate across the fabric skin as about 49 ft/s (15 m/s) at some points during the crash, which would have resulted in

20984-558: The nose as the bow telescoped upwards. In addition to professional photographers, spectators also photographed the crash. They were stationed in the spectators' area near Hangar No. 1, and had a side-rear view of the airship. Customs broker Arthur Cofod Jr. and 16-year-old Foo Chu both had Leica cameras with high-speed film, allowing them to take a larger number of photographs than the press photographers. Nine of Cofod's photographs were printed in Life magazine, while Chu's photographs were shown in

21156-411: The nose of the airship to pulley blocks some hundreds of feet apart on the ground and thence to winches at the base of the mast. All three cables were then wound in together, the main pull being taken on the mooring cable while the yaw guys steadied the ship. When all the cable had been wound, an articulated mooring cone on the nose of the airship locked home into the cup on the mast. The mast fitting

21328-411: The officers in the control car initially thought the shock was caused by a broken rope. At 7:25 p.m. local time, the Hindenburg caught fire and quickly became engulfed in flames. Eyewitness statements disagree as to where the fire initially broke out; several witnesses on the port side saw yellow-red flames first jump forward of the top fin near the ventilation shaft of cells 4 and 5. Other witnesses on

21500-517: The passengers screaming around here! I told you; it – I can't even talk to people, their friends are on there! Ah! It's... it... it's a... ah! I... I can't talk, ladies and gentlemen. Honest: it's just laying there, a mass of smoking wreckage. Ah! And everybody can hardly breathe and talk and the screaming. I... I... I'm sorry. Honest: I... I can hardly breathe. I... I'm going to step inside, where I cannot see it. Charlie, that's terrible. Ah, ah... I can't. Listen, folks; I... I'm gonna have to stop for

21672-405: The past 30 years. The construction of durable engines has meant that blimps can now fly for considerable periods of time, completely autonomous of a pilot or crew. However, these new innovations have also led to the disuse of mooring masts as the additions of air-cushioned landing systems means dirigibles can be landed almost anywhere without a ground crew or mooring mast, “the onboard computer tells

21844-475: The poor weather conditions at Lakehurst, Captain Max Pruss charted a course over Manhattan Island , causing a public spectacle as people rushed out into the street to catch sight of the airship. After passing over the field at 4:00 p.m., Pruss took passengers on a tour over the seashore of New Jersey while waiting for the weather to clear. After being notified at 6:22 p.m. that the storms had passed, Pruss directed

22016-417: The port side just ahead of the port fin, and was followed by flames that burned on top. Commander Rosendahl testified to the flames in front of the upper fin being "mushroom-shaped". One witness on the starboard side reported a fire beginning lower and behind the rudder on that side. On board, people heard a muffled detonation and those in the front of the ship felt a shock as the port trail rope overtightened;

22188-413: The port side noted the fire actually began just ahead of the horizontal port fin, only then followed by flames in front of the upper fin. One, with views of the starboard side, saw flames beginning lower and farther aft, near cell 1 behind the rudders. Inside the airship, helmsman Helmut Lau, who was stationed in the lower fin, testified hearing a muffled detonation and looked up to see a bright reflection on

22360-462: The protected side of the mast at the same height. The nose winch is then attached, and the dirigible is fixed into the rotating mast tip, free to move with the wind. Low masts required a number of ground crew members to constantly attend to the changing directions of the wind as they attempted to re-inflate and repair the airships. In order to reduce the large number of men required to bring the blimps in and out of their hangars and on and off their masts,

22532-549: The purported damage claimed by Kubis. In an interview with the TV show Secrets & Mysteries , Hoehling himself asserted it was only his theory and also suggested a short circuit could be another potential cause of the fire. Additionally, Mooney's book has been criticized as having numerous fictional elements and factual errors, and it has been suggested that the plot was created for the then-upcoming 1975 film. Although Mooney alleges that three Luftwaffe officers were aboard to investigate

22704-464: The purpose of disembarkation of passengers. The final patent was presented in February 1911 and Leonardo stated his claims regarding the nature of his invention as such: 1)    ' [The mooring mast] comprised a metal column erected on the ground to the top of which the bow or stern of the airship was directly attached by a cable 2)   [The airship] moors at the top of the metal column on

22876-468: The rain had (uh) slacked up a little bit. The back motors of the ship are just holding it (uh) just enough to keep it from...It's burst into flames! It burst into flames and it's falling, it's crashing! Watch it; watch it, folks get out of the way; Get out of the way; Get this, Charlie; get this, Charlie! It's fire... and it's crashing! It's crashing terrible! Oh, my! Get out of the way, please! It's burning and bursting into flames and the... and it's falling on

23048-401: The rigid design, the non-rigid airship's gas envelope has no compartments. However, it still typically has smaller internal bags containing air ( ballonets ). As altitude is increased, 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

23220-417: The ropes, which were connected to the frame, became wet, they would have grounded the frame but not the skin. This would have caused a sudden potential difference between skin and frame (and the airship itself with the overlying air masses) and would have set off an electrical discharge – a spark. Seeking the quickest way to ground, the spark would have jumped from the skin onto the metal framework, igniting

23392-562: The routes planned to South America, the West Coast, and across the Pacific’ (Tauranac). The mooring mast was installed to provide unprecedented, accessible air travel, on top of one of the world's most recognisable landmarks. New York would therefore become the epicentre of modern aerospace technology in the United States. However, an obvious drawback to this mooring site is the lack of adequate terminal facilities, with passengers expected to walk down

23564-468: 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

23736-408: The shed, complete with mast and stern carriage". The following account of landing the German airship Graf Zeppelin is abridged from Dick and Robinson (1985): Before attempting a landing, contact was made by radio or flag signals with the ground crew to determine the ground temperature and wind conditions. For a normal calm weather landing the ship was trimmed very slightly nose down, as this gave

23908-404: The ship also rolled slightly to starboard as it settled to the ground, with much of the upper hull on that part of the ship collapsing outboard of the starboard observation windows, thus cutting off the escape of many of the passengers on that side. To make matters worse, the sliding door leading from the starboard passenger area to the central foyer and the gangway stairs (through which rescuers led

24080-480: The ship in trim, six men (three of whom were killed in the accident) were then sent to the bow to trim the airship. At 7:21 p.m., while the Hindenburg was at an altitude of 295 ft (90 m), the mooring lines were dropped from the bow; the starboard line was dropped first, followed by the port line. The port line was overtightened as it was connected to the post of the ground winch. The starboard line had still not been connected. A light rain began to fall as

24252-494: The ship's interior to feed his dog, that according to some of the stewards Späh had told anti-Nazi jokes during the flight, recollections by stewards that Späh had seemed agitated by the repeated delays in landing, and that he was an acrobat who could conceivably climb into the airship's rigging to plant a bomb. In 1962, A. A. Hoehling published Who Destroyed the Hindenburg? , in which he rejected all theories but sabotage, and named

24424-434: The sides of the envelope, away from the centre line gondola. This also raised them above the ground, reducing the risk of a propeller strike when landing. Widely spaced power cars were also termed wing cars , from the use of "wing" to mean being on the side of something, as in a theater, rather than the aerodynamic device . These engine cars carried a crew during flight who maintained the engines as needed, but who also worked

24596-421: The standard approach to docking dirigibles, as blimps could now operate from mobile masts for long periods of time without returning to their hangars. Developments to these mooring technologies allowed for further advancement of airspace technology in the 20th century. After the advent of Torres Quevedo's revolutionary rotating mooring tip, the mooring mast structure was constantly improved and developed upon over

24768-466: The static spark hypothesis, including after the war. At the time on a lecture tour in Austria, he was awakened at about 2:30 in the morning (8:30 p.m. Lakehurst time, or approximately an hour after the crash) by the ringing of his bedside telephone. It was a Berlin representative of The New York Times with news that the Hindenburg "exploded yesterday evening at 7 p.m. [ sic ] above

24940-433: The steel mooring cable were released to the ground crew, and which was directly at the forward end of the axial walkway and just ahead of gas cell #16. The rest were standing either along the lower keel walkway ahead of the control car, or else on platforms beside the stairway leading up the curve of the bow to the mooring shelf. During the fire the bow hung in the air at roughly a 45-degree angle and flames shot forward through

25112-450: The tail of the Hindenburg crashed into the ground, a burst of flame came out of the nose, killing 9 of the 12 crew members in the bow. There was still gas in the bow section of the ship, so it continued to point upward as the stern collapsed down. The cell behind the passenger decks ignited as the side collapsed inward, and the scarlet lettering reading "Hindenburg" was erased by flames as the bow descended. The airship's gondola wheel touched

25284-455: The tether contains electrical conductors. Due to this capability, aerostats can be used as platforms for telecommunication 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

25456-517: The time of the airship exploding, and so there was a significant amount of newsreel coverage and photographs, as well as Herbert Morrison 's eyewitness report for radio station WLS in Chicago , a report that was broadcast the next day. Radio broadcasts were not routinely recorded at the time, however an audio engineer and Morrison had chosen the arrival of the Hindenburg to experiment with recording for delayed broadcast and thus Morrison's narration of

25628-473: The tower itself was never intended to be used and would likely not withstand the stresses involved. The mooring mast atop the Rand Building in downtown Buffalo was similar, with the mast designed to attract what was then a popular means of air traffic. However, records from the local Courier Express and Buffalo Evening News have no reference to a zeppelin using this particular mast. The structure known as

25800-410: The vertical in any direction up to 30 degrees of movement. The top of the arm consisted of a bell-shaped cup mounted to rotate on ball bearings . A cable extended through the bell-mouth which, linked to a cable dropped from airship to be moored, enabled the nose of the airship to be drawn down until a cone on the nose locked home into the cup and so secured the airship to the tower. The telescopic arm

25972-424: The wind a mooring cable was let out from nose to the ground and linked, by a ground party, to the end of the mooring cable paid out from the mast head. The cable was then slowly wound in with the airship riding about 600 feet (180 m) above the mast and down wind, with one engine running astern to maintain a pull on the cable. At this point, two side wires – or ‘yaw guys’ – were also connected to cables taken from

26144-421: The wind. An electric passenger lift ran up the centre of the tower, encircled by a stairway to provide foot access. The upper portion of the tower, from the passenger platform upwards, was a circular steel turret surmounted by a truncated cone with its top 23 feet (7.0 m) above the passenger platform. A three-part telescopic arm, mounted on gimbals, projected through an opening at the top, free to swing from

26316-456: The wreckage to look for survivors. Pruss's face was badly burned, and he required months of hospitalization and reconstructive surgery, but he survived. Captain Ernst Lehmann escaped the crash with burns to his head and arms and severe burns across most of his back. He died at a nearby hospital the next day. When passenger Joseph Späh , a vaudeville comic acrobat billed as Ben Dova , saw

26488-429: The ‘mooring mast’ was invented over 100 years ago when a solution was needed for ground handling problems that resulted in many airships crashing, being deflated or being significantly damaged. Previously to the mooring mast, major problems with mooring emerged as on-land sheds could not handle adverse weather conditions and meant many airships were damaged when landing. In their book, González-Redondo & Camplin discuss

26660-570: 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

26832-449: Was an eight sided steel girder structure, 200 feet (61 m) high, tapering from 70 feet (21 m) diameter at ground level to 26 feet 6 inches (8.1 m) at the passenger platform, 170 feet (52 m) from the ground. Above the passenger platform was the 30 feet (9.1 m) of the conical housing for the mooring gear. A lower platform 142 feet (43 m) above the ground accommodated searchlights and signalling gear in

27004-484: Was an historical overview of the airship concept. Another proponent of the sabotage hypothesis was Max Pruss , captain of the Hindenburg throughout the airship's career. Pruss flew on nearly every flight of the Graf Zeppelin since 1928 until the Hindenburg was launched in 1936. In a 1960 interview conducted by Kenneth Leish for Columbia University 's Oral History Research Office, Pruss said early dirigible travel

27176-633: Was designed and built by the Zeppelin Company ( Luftschiffbau Zeppelin GmbH ) and operated by the German Zeppelin Airline Company ( Deutsche Zeppelin-Reederei ). It was named after Generalfeldmarschall Paul von Hindenburg , who was president of Germany from 1925 until his death in 1934. Filled with hydrogen , it caught fire and was destroyed during its attempt to dock with its mooring mast at Naval Air Station Lakehurst . The accident caused 35 fatalities (13 passengers and 22 crewmen) among

27348-560: Was developed more or less to its final form at RNAS Pulham and Cardington in 1919–21 to make the landing process easier and more economical of manpower The following account of the British high mast in its fully developed state at Cardington , and its operation, is abridged from Masefield. Mooring masts were developed to act as a safe open harbour to which airships could be moored or unmoored in any weather, and at which they could receive ( hydrogen or helium ) gas, fuel, stores and payload . The Cardington mast, completed in 1926,

27520-509: Was eight years old and vacationing with family. He recalled later that his mother threw him and his brother out of the ship and jumped after them; they survived but Doehner's father and sister were killed. When the control car crashed onto the ground, most of the officers leapt through the windows, but became separated. First Officer Captain Albert Sammt found Captain Max Pruss trying to re-enter

27692-471: Was ever presented to support it. No pieces of a bomb were ever discovered (and there is no evidence in existing documentation that the sample collected from the wreckage, and determined to be residue from a dry cell battery, was found anywhere near the stern of the airship), and on closer examination, the evidence against Spehl and his girlfriend turned out to be rather weak. Additionally, it is unlikely that Rigger Knorr would not remain at cell 4 to further assess

27864-447: Was in mooring position for half an hour, until the ground crew could catch the rope...fastened atop the mooring mast for three minutes whilst the crew hung on for dear life...the traffic halted below...the dirigible never made permanent contact with the building.' Today, modern technology has seen a rapid advancement in mooring mast systems, despite the neglect of 20th century dirigibles, which are now often seen as ancient technologies of

28036-431: Was made free to rotate as the airship swung with the wind with freedom also for pitch and roll. A gangway, like a drawbridge, which could be drawn up flush with the nose of the airship, was then let down with its free end resting on the parapet of the platform running round the mast. Passengers and crew boarded and disembarked from the ship under cover along this gangway. About twelve men were needed to moor an airship to

28208-570: Was made in 1884 by Charles Renard and Arthur Constantin Krebs in the French Army airship La France . La France made the first flight of an airship that landed where it took off; the 170 ft (52 m) long, 66,000 cu ft (1,900 m ) airship covered 8 km (5.0 mi) in 23 minutes with the aid of an 8.5 hp (6.3 kW) electric motor, and a 435 kg (959 lb) battery. It made seven flights in 1884 and 1885. In 1888,

28380-406: Was safe, and therefore he strongly believed that sabotage was to blame. He stated that on trips to South America, which was a popular destination for German tourists, both airships passed through thunderstorms and were struck by lightning but remained unharmed. Most members of the crew refused to believe that one of them would commit an act of sabotage, insisting only a passenger could have destroyed

28552-506: Was set up at Lakehurst to investigate the cause of the fire. The investigation by the US Commerce Department was headed by Colonel South Trimble Jr, while Hugo Eckener led the German commission. The disaster was well-documented. Heavy publicity about the first transatlantic passenger flight of the year by Zeppelin to the United States had attracted a large number of journalists to the landing. Thus many news crews were on-site at

28724-414: Was suppressed for political reasons. However, it has also been suggested that numerous crewmen subscribed to the sabotage hypothesis because they refused to accept any flaws with the airship or pilot error. Some more sensational newspapers claimed that a Luger pistol with one round fired was found among the wreckage and speculated that a person on board committed suicide or shot the airship. However, there

28896-469: Was suspected of sabotaging the Hindenburg , and was so shocked by the news that he almost fell off the ladder on which he was standing. Neither the German nor the American investigation endorsed any of the sabotage theories. Proponents of the sabotage hypothesis argue that any finding of sabotage would have been an embarrassment for the Nazi regime, and they speculate that such a finding by the German investigation

29068-471: Was the cause. Charles Rosendahl , commander of the Naval Air Station at Lakehurst and the man in overall charge of the ground-based portion of the Hindenburg's landing maneuver, came to believe that the Hindenburg had been sabotaged. He laid out a general case for sabotage in his book What About the Airship? (1938), which was as much an extended argument for the further development of the rigid airship as it

29240-421: Was then centred, locked in the vertical position, and made free to rotate on a vertical axis so the airship could swing, nose to tower, in any direction of the wind. In the machinery house at the base of the tower three steam-driven winches operated the hauling gear through drums 5 feet (1.5 m) in diameter to give cable hauling speeds of 50 feet a minute. While an airship approached the mast slowly against

29412-418: Was then fixed to a heavy carriage running on a circular railway track around the mast, and this carriage was powered so as to be able to move around the track to keep the ship head on to the wind. In the most sophisticated form, used by the Hindenburg, the rail system was linked to rails running from the mast straight into the airship shed, and the mast was powered so that the ship could be moved mechanically into

29584-437: Was time for him to remark to his wife, "Oh, heavens, the thing is afire," for her to reply, "Where?" and for him to answer, "Up along the top ridge" – before there was a big burst of flaming hydrogen from a point he estimated to be about one-third the ship's length from the stern. Airship An airship , dirigible balloon or dirigible is a type of aerostat ( lighter-than-air ) aircraft that can navigate through

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