- Hindenburg disaster
Infobox Aircraft accident
name = LZ 129 "Hindenburg"
caption = "Hindenburg" a few seconds after catching fire.
May 6, 1937
type = Airship fire
Lakehurst Naval Air Stationin Manchester Township, New Jersey
coords = coord|40|01|49|N|74|19|33|W|region:US-NJ_type:landmark|display=title
Lakehurst Naval Air Stationin Manchester Township, New Jersey, United States
passengers = 36
crew = 61
fatalities = 36 (13 passengers, 22 crew, 1 ground crew)
survivors = 62
aircraft_type = "Hindenburg"-class airship
aircraft_name = "Hindenburg"
tail_number = D-LZ129The "Hindenburg" disaster took place on
6 May 1937as the German rigid airship"Hindenburg" caught fire and was destroyed within one minute while attempting to dock with its mooring mast at Lakehurst Naval Air Stationin New Jersey. Of the 97 people on board, 35 people died in addition to one fatality on the ground. The disaster was the subject of spectacular newsreelcoverage, photographs, and Herbert Morrison's recorded radio eyewitness report from the landing field, which was broadcast the next day. The actual cause of the fire remains unknown, although a variety of theories have been put forward for both the cause of ignition and the initial fuel for the ensuing fire.
The accident served to shatter public confidence, and marked the end of the giant, passenger carrying rigid airships.
the following week.
The airship was already eight hours behind schedule when it passed over Boston on the morning of
6 May, and its landing at Lakehurst was expected to be further delayed because of afternoon thunderstorms. After passing over the field at 4 p.m., Captain Max Prussthus took passengers on a tour over the seasides of New Jersey while waiting for the weather to clear. After finally being notified at 6:22 p.m. that the storms had passed, the airship headed back to Lakehurst to make its landing almost half a day late. However 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 could not be permitted at the mooring location or be able to visit aboard the "Hindenburg" during its stay in port.
Around 7:00 p.m. local daylight saving time, at an altitude of convert|650|ft|m, the "Hindenburg" approached the Lakehurst Naval Air Station. This was to be a high landing, known as a "flying moor", because the airship would be moored to a high mooring point, and then winched down to ground level. This type of landing maneuver would reduce the number of ground crew, but would require more time.
7:08: the airship made a sharp full speed left turn to the west around the landing field because the ground crew was not ready.
7:11: the airship turned back toward the landing field and valved gas. All engines idled ahead and the airship began to slow.
7:14: at altitude convert|394|ft|m, Captain Pruss ordered all engines full astern to try to brake the airship.
7:17: the wind shifted direction to southwest, and Captain Pruss was forced to make a second, sweeping sharp turn, this time towards starboard.
7:19: the airship made the second sharp turn and valved 300, 300 and 500 kg of water ballast in successive drops because the airship was stern heavy. Six men (three were killed in the accident [ While "Hindenburg Disaster: Probable Cause" states that all six crew members were killed, three of them survived ("Hindenburg: The Untold Story")] ) were also sent to the bow to trim the airship. None of these attempts to correct the problem worked and the airship seemed to sink even more, but Pruss was now permitted to land.
7:21: at altitude convert|295|ft|m, the mooring lines were dropped from the bow, the starboard line being dropped first. At this point, the cameramen who were filming the lines being caught by the ground crew stopped rolling film altogether, and missed what was about to happen.
First hints of disaster
At 7:25, a few witnesses saw the fabric ahead of the upper fin flutter as if gas were leaking. At the same time another witness saw what looked like static electricity moving up the hull from the bottom.
Immediately after this, witnesses started to report a small flame ahead of the upper fin. Commander Rosendahl testified it being "mushroom-shaped" and knew at once that the airship was doomed. One witness on the starboard side reported a fire beginning lower and behind the rudder on that side (however, this may have happened after the initial fire on the port side).
At 7:25 p.m. local time, the 'Hindenburg' caught fire and quickly became engulfed in flames. Where the fire started is controversial; witnesses on the port side saw yellow-red flames first just forward of the top fin, around the vent of cell 4. One, with views of the starboard side, saw flames beginning lower and farther aft, near cell 1. No. 2 Helmsman Helmut Lau also testified seeing the flames spreading from cell 4 into starboard. Although there were four newsreel cameramen and at least one spectator known to be filming the landing, they were all recording the actions of the ground crew when the fire started and therefore there is no motion picture record of where it first broke out at the instant of ignition.
Wherever it started, the flames quickly spread forward. Almost instantly, a water tank and a fuel tank burst out of the hull. At the same time, a crack appeared behind the passenger decks. The airship's back broke, and the section from the nose to the aft engine cars lurched upwards, while the stern stayed in trim.
As the "Hindenburg"'s tail crashed into the ground, a burst of flame came out of the nose, killing three of the six crew members in the bow. As the airship kept falling with the bow facing upwards (because there was more lifting gas still in the nose), part of the port side directly behind the passenger deck collapsed inward (where the "dent" was), and the gas cell there exploded, erasing the scarlet lettering "Hindenburg" while the airship's bow lowered. The airship's gondola wheel touched the ground, causing the airship to bounce up once more. At this point, most of the fabric had burned away. At last, the airship went crashing on the ground, bow first.
The time it took for the airship to be completely destroyed has been disputed. Some observers believe it took 34 seconds, others say it took 32 or 37 seconds. Since none of the newsreel cameras were filming the airship when the fire started, the time of the start of the fire can only be estimated from various eyewitness accounts, and will never be known accurately. One careful analysis of the flame spread, by
Addison Bainof NASA, gives the flame front spread rate across the fabric skin as about convert|49|ft/s|m/s|abbr=on, which would have resulted in a total destruction time of about 16 seconds (245m / 15m/s = 16.3s).
The incident is widely remembered as one of the most dramatic accidents of modern time. The cause of the accident has never been determined, although many theories, some highly controversial, have been proposed.
Historic newsreel coverage
disasteris well recorded because of the significant extent of newsreelcoverage and photographs, as well as Herbert Morrison's recorded, on-the-scene, eyewitness radioreport being made from the landing field for station WLS in Chicagowhich was broadcast the next day. Heavy publicity about the first transatlantic passenger flight of the year by Zeppelin to the U.S. attracted a large number of journalists to the landing. (The airship had already made one round trip from Germany to Brazil that year.) Parts of the Morrison report were later dubbed onto the newsreel footage giving the impression to many modern viewers, more accustomed to live televisionreporting, that the words and film were recorded together intentionally. Morrison's broadcast remains one of the most famous in history. His plaintive words, "Oh, the humanity!" resonate with the impact of the disaster, and have been widely used in culture. Part of its poignancy is due to its being recorded at a slightly slower speed to the disk, so when played back at normal speed seeming to be at a faster delivery and higher pitch; when corrected, his account is less frantic sounding, though still impassioned.
Spectacular motion picture footage and Morrison's passionate recording of the "Hindenburg" fire shattered public and industry faith in airships and marked the end of the giant passenger-carrying Airships. Also contributing to the Zeppelins' downfall was the arrival of international passenger air travel and
Pan American Airlines. [Blimps, dirigibles and Zeppelins are categorized as "airships." Airplanes and helicopters are categorized as "winged aircraft." The term aerostat is reserved for balloons.] Aircraft regularly crossed the Atlantic and Pacific oceans much faster than the 130 km/h (80 mph) of the Hindenburg. The one advantage that the "Hindenburg" had over aircraft was the comfort it afforded its passengers, much like that of an ocean liner.
There had been a series of other airship accidents, none of them Zeppelins, prior to the "Hindenburg" fire. Many were caused by bad weather, and most of these accidents were dirigibles of British or U.S. manufacture. Both nations' techniques for dirigible manufacture were rudimentary compared to the expertise of the Germans. Zeppelins had had an impeccable safety record. The "Graf Zeppelin" had flown safely for more than 1.6 million km (1 million miles), including the first
circumnavigationof the globe by an airship. The Zeppelin company's promotions prominently featured the fact that no passenger had been injured on one of their airships.
Despite the violent fire, most of the crew and passengers survived. Of the 36 passengers and 61 crew, 13 passengers and 22 crew died. Also killed was one member of the ground crew, Navy Linesman Allen Hagaman. Most deaths were not caused directly by the fire but were from jumping from the burning airship. Those passengers who rode the airship on its descent to the ground survived. Some deaths of crew members occurred because they wanted to save people on board the airship. Although the most famous of airship disasters it was not the worst. Almost twice as many perished when the helium filled "
USS Akron" crashed. [Source for the cause of death is secondary; found in: Hawken, P.; Lovins, A. and Lovins, H. "Natural Capitalism". New York: Little Brown & Company, 1999, p. 35. Their footnote references Bain, A. "The Hindenberg Disaster: A Compelling Theory of Probable Cause and Effect". "Proceedings: National Hydrogen Association", 8th Annual Hydrogen Meeting, Alexandria, VA, 11 March– 13 March 1997, pp. 125–128.]
Some of the survivors were saved by luck. Werner Franz, the 14 year-old cabin boy, had been saved from the fire by a shower of water. A water ballast tank burst open, and he was soaked. He then made his way to the hatch and turned around and ran the other way, because the flames were being pushed by the wind towards the starboard side. Franz is one of the two people aboard who are still alive as of 2008. When the control car crashed on the ground, the officers had run, but became separated. First Officer Captain Albert Sammt found Captain Max Pruss rescuing passengers, Pruss's face was badly burned, but he would survive.
Ernst Lehmannsurvived the crash, but though his burns were not as severe as those of Pruss, he seemed to have lost his will to live. He died the next day.
When the passenger Joseph Späh saw the first sign of trouble he smashed the window with his movie camera (the film survived the disaster) and hung onto a nearby landing line (he was an acrobat) and jumped down when the airship was closer to the ground. He broke his ankle, but survived. His dog Ulla, one of the two dogs on board during the flight, died in the fire.
Of the six people in the bow of the airship, three survived; the flames shot through the nose like a blowtorch and the airship tilted upwards. Most of the people fell into the fire, but the three hung on tight.
The four crew members in the tail fin all survived; they were closest to the origin of the fire but escaped when the tail hit the ground.
Hydrogenfires are notable for being less destructive to immediate surroundings than gasoline explosions because of the buoyancy of H2, which causes 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 and of wood. [Werthmüller, Andreas. [ http://www.hydropole.ch/Hydropole/Intro/Hindenburg.htm "The Hindenburg Disaster"] . Rüfenacht Switzerland: Swiss Hydrogen Association, 22 February 2006.]
Cause of ignition
At the time of the disaster, sabotage was commonly put forward as the cause of the fire, in particular by Hugo Eckener, former head of the Zeppelin company and the "old man" of German airships. (Eckener later publicly endorsed the static spark theory — see below.)
Another proponent of the sabotage hypothesis was Max Pruss, commander of the "Hindenburg" throughout the airship's career. Pruss flew on nearly every flight of the "Graf Zeppelin" until the Hindenburg was ready. In a 1960 interview conducted by Kenneth Leish for Columbia University's Oral History Research Office, Pruss said early dirigible travel 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. [ [http://www.fathom.com/feature/121907/ Columbia University's Oral History Research Office interview] ]
In 1962, A. Hoehling published "Who Destroyed the Hindenburg?", a book that rejects all theories but sabotage. It even names the likely saboteur — Eric Spehl, a rigger on the Hindenburg who died in the fire. Ten years later, Michael MacDonald Mooney's book, "The Hindenburg", also identified Spehl as the saboteur. Mooney's book was made into the movie "The Hindenburg," whose producers were sued by Hoehling for plagiarism, but Hoehling lost. [ [http://www.law.uconn.edu/homes/swilf/ip/cases/hoehling.htm Hoehling] ]
The historians and researchers putting Spehl forward as a saboteur cite:
* His girlfriend's anti-Nazi connections; she reportedly was a communist.
* The fire's origin near Gas Cell 4, Spehl's duty station.
* Rumours that in 1938 the Gestapo was investigating Spehl's involvement.
* Spehl's interest in amateur photography, making him familiar with flashbulbs that could have served as an igniter. A dry cell battery that might have powered a flashbulb was found in the wreckage.
* A flash or a bright reflection that crew members near the lower fin had seen just before the fire.
Since it is very unlikely that Spehl wanted to kill people, proponents of this sabotage theory say that he wanted the airship to explode after the landing (already over 12 hours late) but was too busy to reset the bomb.
During the landing maneuver, rigger Hans Freund dropped a landing line in front of the lower fin. The line became caught in the bracing wires of the airship, so No. 2 helmsman Helmut Lau climbed up from the lower fin to release it. When both men looked up toward the front of the airship, they were surprised by what they saw.
Freund described a flash like a flashbulb's, and Lau said he saw a brilliant reflection between cells 4 and 5. They then heard a muffled detonation and a thud as the "Hindenburg's" back broke. Some believe that this is evidence for sabotage. Others believe Freund was actually looking rearward, away from cells 4 and 5, but that Rudolf Sauter, another crew member in the lower fin had seen the flash.Archbold 1994]
Another suspect was a passenger, a German acrobat named Joseph Spaeh, who survived the fire. He brought with him a dog, a German shepherd named Ulla, as a surprise for his children. (Ulla did not survive.) He often made unaccompanied visits to the stern to feed, talk and play with the dog. Someattribution needed, noting that Spaeh told many anti-Nazi jokes, and that he was an acrobat who could climb into the airship's rigging, accuse him of planting a bomb when he was with his dog.
It has even been suggested that Adolf Hitler himself ordered the "Hindenburg" to be destroyed in retaliation for Eckener's anti-Nazi opinions.National Geographic 2000] .
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.
Eric Spehl died in the fire and was unable to refute the accusations. The FBI investigated Joseph Spaeh and reported finding no significant evidence of sabotage. According to Spaeh's wife, Evelyn, Spaeh was upset over the accusations and almost fell off a ladder when he was told about it while cleaning windows. Moondance Films, "Hindenburg Disaster: Probable Cause" (2001), also known as Revealed... The Hindenburg Mystery (2002)] .
Neither the German nor the American investigation endorsed any of the sabotage theories. Proponents of the sabotage theory 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 was suppressed for political reasons.
Eckener believed that the reason why Pruss, Lehmann, and Rosendahl all supported sabotage was because they may have felt guilty for their acts. Pruss made the sharp turn, Lehmann pressured Pruss to make it, and Rosendahl called the airship in."", distributed by
Channel 4International, 6 May 2007.] .
tatic spark theory
Another theory posits that the fire was started by a spark caused by a build up of static electricity on the airship. Whether the spark ignited hydrogen or the outer skin has been disputed.
Proponents of the static spark theory point out that the airship's skin was not constructed in a way that allowed its charge to be evenly distributed throughout the craft. The skin was separated from the
duraluminframe by non conductive ramiecords which had been lightly covered in metal to improve conductivity, however not very effectively, allowing a large difference in potentialto form between them.
In order to make up for a delay of more than 12 hours in its transatlantic flight, the "Hindenburg" passed through a weather front of high humidity and high electrical charge. This made the airship's mooring lines wet and thus conductive and may have given its skin an electrical charge. When the mooring lines, which were connected to the frame, touched the ground, they would have grounded the frame but not the skin. Though they were dry, they could have gotten wet as the light rain fell. This could have caused a sudden potential difference between skin and frame (and the airship itself with the overlying air masses) and set off an electrical discharge — a spark. The spark would have jumped from the skin onto the metal framework. At the same time, hydrogen was leaking, and was ignited by the spark.
Some witnesses reported seeing a glow consistent with
St. Elmo's firealong the tail portion of the airship just before the flames broke out, but these reports were made after the official inquiries were completed.
Harold G. Dick was Goodyear Zeppelin's representative with Luftschiffbau Zeppelin during the mid-1930s. He flew on test flights of the "Hindenburg" and its sister ship, the "Graf Zeppelin II". He also flew on numerous flights in the original "Graf Zeppelin" and 10 round trip crossings of the north and south Atlantic in the "Hindenburg". In his book "The Golden Age of the Great Passenger Airships Graf Zeppelin & Hindenburg", he observes:
In addition to Dick's observations is the fact that during the "Graf Zeppelin II's" early test flights, measurements were taken of the airship's static charge. It is clear that Dr. Ludwig Durr and the other engineers at Luftshiffbau Zeppelin took the static discharge theory seriously and considered the insulation of the fabric from the frame to be a design flaw in the "Hindenburg".
A variant of the static spark theory, presented by
Addison Bain, is that a spark between inadequately grounded fabric cover segments of the "Hindenburg" itself started the fire, and that the spark had ignited the highly flammable outer skin. The "Hindenburg" had a cotton skin covered with a finish known as "dope". It is a common term for a plasticised lacquerthat provides stiffness, protection, and a lightweight, airtight seal to woven fabrics. In its liquid forms, dope is highly flammable, but the flammability of dry dope depends upon its base constituents, with butyrate dope being far less flammable than cellulose nitrate, for example. When the mooring line touched the ground, a resulting spark could have ignited the dope in the skin.
A. J. Dessler, former director of the Space Science Laboratory at
NASA's Marshall Space Flight Centerand a critic of the incendiary paint theory (see below), favors a much simpler explanation for the conflagration: natural lightning. Like many other aircraft, the "Hindenburg" had been struck by lightning several times. This does not normally ignite a fire in hydrogen-filled airships, because the hydrogen is not mixed with oxygen. However, many fires started when lightning struck airships as they were venting hydrogen in preparation for landing, as the Hindenburg was doing at the time of the disaster. The vented hydrogen is mixed with air, making it readily combustible.
However, Dr. Eckener believed that the way the fire appeared was not consistent with that of a fire caused by lightning. Witnesses described the fire appearing in a wave motion. Eckener believed that the shape of the fire was consistent with that of a static spark..
Engine exhaust sparks theory
On the 70th anniversary of the accident, "The Philadelphia Inquirer" carried an article [ [http://www.philly.com/philly/opinion/20070506_The_real_cause_of_the_Hindenburg_disaster_.html "The real cause of the Hindenburg disaster?"] "Philadelphia Inquirer",
6 May 2007.] with yet another theory, based on an interview of ground crew member Robert Buchanan. He had been a young man on the crew manning the mooring lines.
The excessively stormy day had not only delayed the dirigible's arrival but also soaked him and many of the other mooring crew. As the airship was approaching the mooring mast, he noted that one of the engines, thrown into reverse for a hard turn, backfired, and a shower of sparks was emitted. He and others think that this was the trigger that ignited the craft, not static electricity, as the official version goes.
When the "Hindenburg" ignited, instead of an explosion there were just three sequential plumes of flame on the outer shell. Another ground crewman named Robert Shaw saw what looked like a blue ring behind the tail fin. He too had seen sparks coming out of the engine. [ [http://www.balloonlife.com/publications/balloon_life/9801/0112/hindenburg0112.pdf Hindenburg] ] The cotton cover, with its coating, was quite flammable (this is disputed), and the heat and sparks from the backfiring engine may have been the ignition source.
However, it is unknown if sparks could ignite the doping compound, and Dr. Eckener rejected that hydrogen could be ignited when the theory was mentioned at an unofficial inquiry at night. This was a chat with crew members. He believed that the hydrogen could not have been ignited by any exhaust because the temperature is too low to ignite the hydrogen. The ignition temperature for hydrogen is 700 °C, but the sparks from the exhaust only reach 250 °C. The Zeppelin Company also carried out extensive tests, and hydrogen could never be ignited. Additionally, the fire was first seen at the top of the airship, not near the bottom.
Fire's initial fuel
Most current analysis of the fire assumes that ignition due to some form of electricity was the cause. However, there is still controversy over whether the fabric covering of the airship or the hydrogen used for buoyancy was the initial fuel for the fire.
The incendiary paint theory
The incendiary paint theory asserts that the major component in the fire was the skin because of the doping compound used on it.
Proponents point out that the coatings on the fabric contained both iron oxide and aluminum-impregnated cellulose acetate butyrate (CAB). These components are potentially reactive, even after fully setting. In fact, iron oxide and aluminum are sometimes used as components of
solid rocketfuel or thermite. The propellant for the Space Shuttle solid rocket booster includes "aluminum (fuel, 16%), (and) iron oxide (a catalyst, 0.4%)." Addison Bainreceived permission from the German government to search its archives and discovered that during the Nazi regime, German scientists concluded that the dope on the "Hindenburg's" fabric skin was the cause of the conflagration. Bain interviewed the wife of the investigation's lead scientist, and she confirmed that her husband had told her about the conclusion and instructed her to tell no one, presumably because it would have embarrassed the Nazi government. [ [http://www.pbs.org/wnet/secrets/flash/hindenburgframe.html "What Happened to the Hindenburg?"] " PBS", 15 June 2001.]
The paint theory is limited to the source of ignition and to the flame front propagation, not to the source of most of the burning material as that was clearly the hydrogen.
Critics point out that port side witnesses on the field, as well as crew members stationed in the stern, saw a glow inside Cell 4 before any fire broke out of the skin, indicating that the fire began inside the airship (or that it was a hydrogen fire feeding on the whole cell). Newsreel footage supports this. Proponents of the paint theory claim that the glow can be explained. They claim that what witnesses saw was the fire on the starboard side (another proponent claims that a witness saw the fire start from the starboard side) through the structure, looking like a glow. However, photographs of the early stages of the fire show the gas cells of the "Hindenburg's" entire aft section fully aflame. Burning gas spewing upward from the top of the airship was causing low pressure inside, allowing atmospheric pressure to press the skin inwards. It should also be noted that not all fabric on the Hindenburg burned. The fabric on several of the tail structures was not completely consumed. That the fabric not near the hydrogen fire extinguished itself is not consistent with the "explosive" dope theory.
MythBustersfurther debunked the theory, finding that the aluminum/iron oxide ratios in the Hindenburg's skin, while sufficient to create some thermite, were ultimately insufficient to destroy the zeppelin on their own. Had the skin in fact contained pure thermite, the Hindenburg would have been too heavy to fly. The MythBusters team also discovered that the Hindenburg's coated skin was more resistant to fire than untreated material, however, when ignited, reacted more violently. This led to the hypothesis that the paint may have contributed to the disaster but was not entirely at fault; rather, it was a combination of the paint and the hydrogen that fueled the fire.
The hydrogen theory
Those who believe hydrogen was the initial fuel discount arguments for the incendiary paint theory as not credible. They point out that cellulose acetate butyrate (CAB) varnish is rated within the plastics industry as combustible but nonflammable.Clarifyme|date=September 2008 That is, it will burn when placed in a fire but is not readily ignited by itself. In fact, it is considered to be self extinguishing. [Occasionally the Hindenburg's CAB is incorrectly identified as (or stated as being similar to)
cellulose nitrate, which, like most nitrates, burns very readily.] That many pieces of the Hindenburg's skin survived despite such a fierce fire is cited as proof. In his experiment, Addison Bain used a high energy ignition source (a spark) to make it burn.Clarifyme|date=September 2008
They point to pictures that show the fire burning along straight lines coinciding with the boundaries of gas cells. This suggests that the fire was not burning along the skin, which was continuous. Crew members stationed in the stern reported actually seeing the cells burning. [ [http://www.keepgoing.org/issue20_giant/thirtytwo_seconds.html Thirty-two Seconds] ]
Although the hydrogen was odorized with garlic, nobody reported smelling the odor. Odorised hydrogen would have been detected only in the area of a leak. The fire started near the top of the airship far from any crew or passengers. Once the fire was underway, more powerful smells would have masked any garlic odor. There is however, no official document that the hydrogen was even odorized.
Support that any leak happened was that the airship remained stern heavy for the last few minutes. Though Pruss believed that this stern heaviness was normal, attempts to correct it had failed and the airship seemed to get even heavier after the second and last sharp turn. This suggests a massive leak of gas occurred and it started to fill up the space in between the outer skin and the cells.
How gas could have leaked remains debatable. Many believe it was that a bracing wire cracked (see below), while others believe that a vent was stuck open and gas leaked through the vent. During a trip to Rio a gas cell was nearly emptied when a vent stuck open; gas had to be transferred from other cells..
One hole in this theory that should be noted however is that the fire was reported as burning bright red, while hydrogen always burns blue if visible at all. [ [http://www.iop.org/EJ/article/1538-3881/130/2/626/204674.web.pdf?request-id=617e0292-9bc5-491d-a260-97437c319901 Theory] ]
A variant of the theory above cites the newsreels of the landing approach. Newsreels show the "Hindenburg" making sharp turns towards port, and then starboard just before bursting into flames. Some speculate that one of the many bracing wires within the airship snapped and punctured at least one of the internal gas cells. Gauges found in the wreckage showed the tension of the wires was much too high. Some of the wires may have been substandard. One bracing wire tested after the crash broke at only 70% of its rated load. A punctured cell would have freed hydrogen into the air and could have been ignited by a static discharge (see above).
It is also possible that the broken bracing wire then whipped a girder, causing sparks to ignite the leaking hydrogen..
A ground crew member, R.H. Ward, reported seeing a piece of the airship fluttering, perhaps providing an opening for a spark to reach escaping hydrogen inside the airship, or vice versa. He said that the fire began there, but that no other disturbance occurred at the time when the fabric fluttered. Another man on the top of the mooring mast had also reported seeing a flutter too. Botting 2001, pp. 249–251.] People on board the airship also reported hearing a muffled sound, and another ground crew member on the starboard side reported hearing a crack. Some speculate the sound was from a bracing wire snapping.
Advocates of this theory believe that the hydrogen began to leak approximately five minutes before the fire.
Dr. Eckener was the one to conclude that the puncture theory was the most likely cause of the disaster. After this, he believed that Captains Pruss and Lehmann, and Charles Rosendahl were to blame for the whole disaster. He believed that Lehmann told Pruss to make the sharp turn, and that Pruss and Rosendahl were concerned more about the time delay than the weather, because an unobserved storm front occurred just when the Hindenburg approached. But in his heart, he found himself to blame, for a decision eight years earlier, which was a close secret. [In 1929, Dr. Eckener was offered the opportunity to use helium, but because it was extremely expensive, and he did not have any facilities to hold or transport helium, he decided against it. By the time he needed it (after the disaster for building the
LZ 130 Graf Zeppelin), it was too late to get any helium because the U.S. had banned any export of helium to Germany in concern that Hitler might use it for military purposes.]
Eckener concluded that the fire was caused by the ignition of hydrogen by a static spark:
cquote|I believe that the fire was not caused by an electrical spark, but by a static spark. A thunderstorm front had passed before the landing maneuver. However if one observes more closely one can see that this was followed by a smaller storm front. This created conditions suitable for static sparks to occur. I believe spark had ignited gas in the rear of the ship.
It may seem strange that the fire did not occur the moment the landing ropes had touched the ground, because that is when the airship would have been earthed. I believe there is an explanation for this. When the ropes were first dropped they were very dry, and poor conductors. Slowly however they got dampened by the rain that was falling and the charge was slowly equalized. Thus the potential difference between the airship and the overlying air masses would have been sufficient enough to generate static electricity. The Hindenburg would have acted as a giant kite, close to the storm clouds, collecting a static spark.
I am convinced, that a leak must have occurred in the upper rear section of the ship. My assumption is confirmed by the remarkable observations by one of the witnesses. He described seeing a peculiar flutter as if gas were rising and escaping. If I were to be asked to explain what had caused this abnormal build up of gas, I could only make to myself one explanation.
The ship proceeded in a sharp turn during its landing maneuver. This would have generated extremely high tension in the sections close to the stabilizing fins, which are braced by shear wires. I suspect that under such tension one of these wires may have broken and caused a rip in one of the gas cells. The gas then filled up the space between the cell and the outer cover, which is why the airship sank at the rear. This accumulated amount of gas was then ignited by a static spark. This was not lightning but a small static spark, enough to ignite free gas in the rear.
The airship's landing approach actually proceeded in two sharp turns. The first turn was towards port at full speed as the airship circled the landing field. After circling the landing field, the wind shifted direction towards southwest, and a sharper turn towards starboard was ordered near the end of the landing maneuver. After the last turn the airship seemed to drop even more at the stern, though a slight stern heaviness was already noticed before this turn. One or both of these turns towards opposite directions could also have weakened the structure.
Other controversial hypotheses
Captain Pruss believed that the "Hindenburg" could withstand tight turns without significant damage. Other engineers and scientists believe that the airship would have been weakened by being repeatedly stressed. Even a 10-meter, full scale replica of the "Hindenburg's" passenger quarters, displayed in the
Zeppelin Museumin Friedrichshafen, has developed some metal fatigue.
The airship did not receive much routine inspection, even though there was evidence of some damage on previous flights. It is not known if damage was repaired and if all the failures had been found. The "Hindenburg" once lost an engine and almost drifted over Africa, where it could have crashed. Dr. Eckener was furious and ordered all section chiefs to inspect the airship during flight.
In March 1936, the "Graf Zeppelin" and the "Hindenburg" made three-day flights to drop leaflets and broadcast speeches via loudspeaker. Before the airship's takeoff on
26 March 1936, Captain Lehmann chose to launch the Hindenburg with the wind blowing from behind the airship, instead of into the wind as per standard procedure. During the takeoff, the airship's tail struck the ground, and part of the lower fin was broken. [ [http://specialcollections.wichita.edu/exhibits/haldick/images/hd-fins1.jpgExhibits] ] Many spectators' cameras were confiscated to prevent negative publicity, but Harold G. Dickconcealed his camera and took pictures of the damaged fin. Dr. Eckener was very upset and rebuked Captain Lehmann:
quotation|How could you, Herr Lehmann, order the ship to be brought out in such wind conditions. You had the best excuse in the world for postponing this idiotic flight; instead, you risk the ship, merely to avoid annoying Herr Goebbels. Do you call this showing a sense of responsibility towards our enterprise?
Though the damage was repaired, the force of the crash may have already forced up the fin and caused internal damage.
Only six days before the disaster, there was a plan assisted by the U.S. Navy to make the Hindenburg have a hook on her hull to carry aircraft in a similar way to what the Navy did with the
USS Akronand the USS Macon. However, the trials were unsuccessful; the biplane had bashed the hook several times. This could have also caused an amount of damage weakening the structure.
Photographs and Newsreels of the initial stages of the fire show that the stern section of the airship collapsed inward in a similar way to an eggshell, as well as a "crack" directly behind the passenger decks. When the stern of the ship hit the ground and collapsed, this part collapsed inward, causing another plume of fire to start. Some experts have suggested that the collapsing of the structure in this manner suggests problems in strength within the cell bulkheads and the bracing wires.
This theory has not been very popular, because it is not a theory about what caused the fire, but is an element that supports the puncture theory.
The 2001 documentary "Hindenburg Disaster: Probable Cause" suggested that 16-year-old Bobby Rutan, who said he had smelled "gasoline" when he was standing below the Hindenburg's aft port engine, had detected a diesel fuel leak. The day before the disaster, a fuel pump had broken during the flight. A crew member said this was fixed but it may not have been. The resulting vapor would have been highly flammable and could have self combusted. The film also suggested that overheating engines may have played a role.
During the investigation, Commander Charles Rosendahl dismissed the boy's report.
Critics say the documentary is misleading, because it misconstrued the statements by the crewmen in the "Hindenburg's" lower fin. The crewmen said they saw a flash in the axial catwalk, but the film placed the flash in the keel catwalk closer to the passenger areas.
Luger pistol among wreckage
Some more sensational newspapers at the time said that a person on board committed suicide because a
Luger pistolwith one shell fired was found among the wreckage. Yet, there is no such evidence suggesting an attempted suicide.
Rate of flame propagation
Regardless of the source of ignition or the initial fuel for the fire, there remains the question of what caused the rapid spread of flames along the length of the airship. Here again the debate has centered on the fabric covering of the airship and the hydrogen used for buoyancy.
Proponents of the incendiary paint theory also contend that the fabric coatings were responsible for the rapid spread of the fire. They point out that the combustion of hydrogen is not usually visible to the human eye in daylight, because most of its radiation is not in the visible portion of the spectrum. Thus what can be seen burning in the photographs cannot be hydrogen. However, black and white photographic film of the era had a different light sensitivity spectrum than the human eye, and was sensitive farther out into the infrared and ultraviolet region than the human eye. The motion picture films show the fire spreading downward along the skin of the airship.
Proponents claim that in 1935, a helium filled blimp with an acetate aluminium skin burned near Point Sur in California with equal ferocity. [ [http://www.abc.net.au/science/k2/moments/s1052864.htm Moments] ] Proponents also claim that even the USS Macon burned. Opponents point out that these two incidents had nothing to do with the dope. The small blimp burned because of a fuel leak, and the Macon burned because it was firing flares.
Those skeptical of the incendiary paint theory cite recent technical papers which claim that even if the airship had been coated with actual rocket fuel, it would have taken many hours to burn — not the 32 to 37 seconds that it actually took. [http://spot.colorado.edu/~dziadeck/zf/LZ129fire.htm Hindenburg fire theories] ] Proponents claim that this criticism does not take into account the conditions that lead to
firestorms, such as convectionand ignition from radiant energy.
Also, while hydrogen tends to burn invisibly, the materials around it would be combustible and change the color of the fire. While fires generally tend to burn upward, including hydrogen fires, the enormous radiant heat from the blaze would have quickly spread fire over the entire surface of the airship, thus explaining the downward propagation of the flames. Falling, burning debris would appear as downward streaks of fire.
The most conclusive proof against the fabric theory is in the photographs of the actual accident as well as the many airships which were not doped with aluminum powder and still exploded violently. When a single gas cell explodes, it creates a shock wave and heat. The shock wave tends to rip nearby bags which then explode themselves. In the case of the Alhorn disaster during World War I, explosions of airships in one shed caused the explosions of others in sheds nearby, wiping out the airships at the base.
The photos of the "Hindenburg" disaster clearly show that after the cells in the aft section of the airship exploded and the combustion products were vented out the top of the airship, the fabric on the rear section was still largely intact, and air pressure from the outside was acting upon it, caving the sides of the airship inward due to the reduction of pressure caused by the venting of combustion gases out the top.
The loss of lift at the rear caused the airship to nose up suddenly and the back to break in half (the airship was still in one piece), at that time the primary mode for the fire to spread was along the axial gangway which acted as a chimney conducting fire which burst out the nose right when the airship's tail touched the ground, as seen in one of the most famous pictures of the disaster. As the flames burst from the nose, the fabric on most of the forward part of the airship was still intact, showing that the propagation of the fire was via hydrogen, not the fabric.
Also supporting the fact that hydrogen was burning was that a few seconds after the fire burst out the nose a fire started in the cell behind the passenger decks when the airship bent on the side due to a crack in the side just behind the passenger decks.
Modern experiments that recreated the fabric and coating materials of the "Hindenburg" seem to discredit the incendiary fabric theory. [ [http://www.sas.org/tcs/weeklyIssues/2004-12-17/project1/index.html Citizen Scientist on the flammable coating (IPT)] ] They conclude that it would have taken about 40 hours for the "Hindenburg" to burn if the fire had been driven by combustible fabric. Two additional scientific papers also strongly reject the fabric theory.
Even if the fire was started by the fabric, it would have set off the leaking hydrogen. Hydrogen would still be required to increase the burn speed of the fire, regardless of what was ignited first. If the Hindenburg was filled with helium and still burned, the fire would be slower and most people, if not all, would have survived.
Discovery Channelseries " MythBusters" explored the incendiary paint theory (IPT) and the hydrogen theory in an episode that aired 10 January 2007. [Season 5, Episode 70.] The show's hosts, Adam Savageand Jamie Hyneman, demonstrated that when set alight with a blowtorch a 1:50 scale model of the "Hindenburg" burnt twice as fast in the presence of diffused hydrogen as without it. A thermitereaction was observed in the burning skin which would have accelerated the fire but they concluded that hydrogen was the main fuel. The hydrogen filled model produced a fire with flames that came out of the nose and resembled the newsreel footage of the "Hindenburg" disaster. The program concluded that the IPT myth was "Busted".
National Geographicprogram " Seconds From Disaster" had veteran air crash investigator Greg Feithstudy all of the available evidence, including eyewitness accounts, interviews with the last two living survivors, newsreel footage, weather reports, and the "Hindenburg" blueprints. Feith burned a sample of doped cloth and it took one minute to consume the whole piece, ruling out the skin as the fatal accelerant. Feith's investigations concluded that a gas bag was punctured, probably by a bracing wire broken from the two sharp turns, and that electrostatic discharge from the skin to the ship skeleton ignited the leaked hydrogen.
In Search of...", hosted by Leonard Nimoy, made an episode based on this tragic accident, and it immediately raised the question of whether it was an accident or sabotage by then-Nazi Germany.
The actual site of the Hindenburg crash at Lakehurst Naval Air Station (reestablished as Naval Air Systems Command (NAVAIR) at Naval Air Engineering Station (NAES) Lakehurst, or "Navy Lakehurst" for short [ [http://www.lakehurst.navy.mil/nlweb/ Lakehurst] ] ) is marked with a chain outlined pad and bronze plaque where the airship's gondola landed. [ [http://www.roadsideamerica.com/attract/NJLAKhinden.html Attractions] ] It was dedicated on
6 May 1987, the 50th anniversary of the disaster. [ [http://www.nlhs.com/nlhstours.htm Tours] ] Hangar #1, which still stands, is where the airship was to be housed after landing. It was designated a Registered National Historic Landmark in 1968. [ [http://126.96.36.199/nlweb/documents/lke-facts-sheet-Apr-2003a.htm Documents] ] Pre-registered tours are held through the Navy Lakehurst Historical Society [ [http://www.nlhs.com Navy Lakehurst Historical Society] ] . Due to security concerns, no foreign nationals are permitted on the tours. [ [http://www.nlhs.com/nlhstours.htm NLHS Tours] ]
rock group Led Zeppelin's first album has a picture of the "Hindenburg" disaster on the front cover. The band's name itself is a reference to Keith Moon's quotation that the band would "go over like a lead balloon." The album cover is in fact a pen and ink illustration of the famous UPI photograph drawn with a Rapidograph pen by graphic artist George Hardie. Their 2007 compilation album Mothership also has a picture of the Hindenburg on the album cover.
* Folk/blues musician
Huddie Ledbetter(AKA Leadbelly) wrote a two-part song about the "Hindenburg" crash called "The Hindenburg Disaster".
Richard M. Shermanand Milt Larsen's 1960s-era satirical album, "Smash Flops" contains "When the Hindenberg Lands Today" including lyrics: "There'll be a hot hot time in Lakehurst, New Jersey, when the Hindenburg lands today" as well as "and we know that your motto is 'New Jersey or Bust!'" [ [http://tmazanec1.xepher.net/smashflops.html Album: Smash Flops] ]
Marilyn Mansonused footage of the burning Hindenburg for the performance of " You and Me and The Devil Makes Three" from his most recent tour.
* The Norwegian singer-songwriter Anja Garbarek uses imagery of the burning Hindenburg in her lyrics for her song "ICU". Fact|date=July 2008
Film and television
* "The Hindenburg" (1975 movie) is a speculative thriller based on the events leading up to and including the disaster.
* In the "
The Waltons" season 5 episode "The Inferno", first aired on 10 February 1977, John-Boy goes to Lakehurst, New Jersey, to report on the landing of the "Hindenburg".
*The line, "Oh the humanity!" from Herbert Morrison's recorded description of the Hindenburg disaster has been used on television and radio alike as a recognizable line.
*The "Hindenburg" is the primary motif of the first section of "Three Tales" by
Steve Reichand Beryl Korot.
*The Hindenburg is the main setting of the 2000 mystery novel "The Hindenburg Murders" by
Max Allan Collins.
* The last flight of the "Hindenburg" is a major plot element in
Allen Steele's science fiction fix upnovel "Chronospace".
* In the novel "
The Never War" by D.J. MacHale, the main character can choose to keep the "Hindenburg" Disaster from happening, which he thought would keep World War II from starting. However, he decides not to, since he discovers that the airship is carrying payment to German spies that would allow the Nazis to develop atomic weapons before the Allies.
*A National Geographic "Seconds From Disaster" episode
*One of the levels in the
Xboxvideo game "Ninja Gaiden" is set on a very large, luxurious, hydrogen-filled airship. The level ends with a fight between the main character and a boss armed with an electricity-discharging weapon, which ignites the hydrogen and destroys the airship when the boss is defeated. This level design may have been inspired by the Hindenburg disaster, especially since the burning blimp looks almost exactly like the Hindenburg as it burned.
LZ 129 Hindenburg
Hindenburg Disaster Newsreel Footage"
Herbert Morrison (announcer)
List of airship accidents
* "" was a
docudramaaired on the 70th anniversary of the disaster, 6 May 2007.
Timeline of hydrogen technologies
High Resolution Version of Image of Explosion* http://www.flickr.com/photos/69805768@N00/2087961122/
* Archbold, Rick. "Hindenburg: An Illustrated History". Toronto: Viking Studio/Madison Press, 1994. ISBN 0-670-85225-2.
* Birchall, Frederick. "100,000 Hail Hitler; U.S. Athletes Avoid Nazi Salute to Him". "The New York Times",
1 August 1936, p. 1.
* Botting, Douglas. "Dr. Eckener's Dream Machine: The Great Zeppelin and the Dawn of Air Travel". New York: Henry Holt & Co., 2001. ISBN 0-80506-458-3.
* Deutsche Zeppelin-Reederi. "Airship Voyages Made Easy" (16 page booklet for "Hindenburg" passengers). Luftschiffbau Zeppelin G.m.b.H., Friedrichshafen, Germany, 1937.
* Dick, Harold G. and Douglas H. Robinson. "The Golden Age of the Great Passenger Airships Graf Zeppelin & Hindenburg". Washington, D.C. and London: Smithsonian Institution Press, 1985. ISBN 1-56098-219-5.
* Duggan, John. "LZ 129 "Hindenburg": The Complete Story". Ickenham, UK: Zeppelin Study Group, 2002. ISBN 0-9514114-8-9.
* Hoehling, A.A. "Who Destroyed The Hindenburg?" Boston: Little, Brown and Company, 1962. ISBN 0-44508-347-6.
* Lehmann, Ernst. "Zeppelin: The Story of Lighter-than-air Craft". London: Longmans, Green and Co., 1937.
* Majoor, Mireille. "Inside the Hindenburg". Boston: Little, Brown and Company, 2000. ISBN 0-316-123866-2.
* Mooney, Michael Macdonald. "The Hindenburg". New York: Dodd, Mead & Company, 1972. ISBN 0-396-06502-3.
* National Geographic. "Hindenburg's Fiery Secret" (DVD). Washington, DC: National Geographic Video, 2000.
* [http://www.archive.org/details/hindenberg_explodes Footage from Castle and Pathé coverage of the Hindenburg disaster at
* [http://www.youtube.com/watch?v=8V5KXgFLia4 YouTube video: Universal Newsreel -
10 May 1937Special report on the "Hindenburg" disaster.]
* [http://www.youtube.com/watch?v=F54rqDh2mWA YouTube video of Herb Morrison's famous report synchronized with newsreel footage]
* [http://www.youtube.com/watch?v=pUVDmXvXcbk YouTube video with audio at corrected speed]
* [http://www.abc.net.au/science/k2/moments/s1052864.htm Hindenburg & Hydrogen]
* [http://foia.fbi.gov/foiaindex/hindburg.htm FBI investigation into the Hindenburg disaster]
* [http://www.failuremag.com/arch_history_hindenburg.html "The Hindenburg" - Failure Magazine (January 2002)]
* [http://www.keepgoing.org/issue20_giant/thirtytwo_seconds.html "Thirty-Two Seconds" - An article about the disaster that features rare photos of the disaster, a photograph of the surviving crew and a report on Cabin Boy Werner Franz.]
* [http://www.pbs.org/wnet/secrets/flash/hindenburgframe.html "What Happened to the Hindenburg?" Transcript: "Secrets of the Dead" (
15 June 2001, PBS)]
* [http://www.nlhs.com/passenger-list.htm Passenger and Crew List of the "Hindenburg" on its final voyage]
Flammable fabric disaster theory
* [http://web.archive.org/web/20040619150217/http://www.dwv-info.de/pm/hindbg/hbe.htm An Article Supporting the Flammable Fabric Theory. Retrieved with the Wayback Machine]
* [http://spot.colorado.edu/~dziadeck/zf/LZ129fire.htm Two Articles Rejecting the Flammable Fabric Theory]
* [http://www.sas.org/tcs/weeklyIssues/2004-12-17/project1/index.html Experiments Reject the Flammable Fabric Theory]
*An article supporting the engine exhaust spark theory: [http://www.philly.com/philly/opinion/20070506_The_real_cause_of_the_Hindenburg_disaster_.html "The real cause of the Hindenburg disaster?" "Philadelphia Inquirer",
6 May 2007(the 70th anniversary of the Hindenburg disaster)]
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