Auguste Piccard and Paul Kipfer take off in 1931 on a record-setting flight.
The second flight of the Century of Progress, November 1933.
The first flight of the Century of Progress, August 1933.
Explorer I during its ascent to 60,613 feet on July 28, 1934.
The Explorer I crew Major William Kepner, Captain Albert Stevens, and Captain Orvil Anderson, on July 29, 1934.
Captain Hawthorne Gray (in flight suit) before his ascent on March 9, 1927.
The balloon basket and equipment items used by Capt. Gray on his high-altitude flights. Note the five small parachute packs hanging on the basket.
Explorer I falling after its gas bag ruptured.
Section of Explorer I gondola that disintegrated upon impact.
The Race to the Stratosphere
Over the years, balloonists, or aeronauts, have attempted to fly farther, higher, and longer. The British Charles Green, along with Thomas Monck Mason of Ireland and British Robert Hollond, were some of the first aeronauts to set a record when, in November 1836, they flew The Great Balloon of Nassau almost 500 miles (800 kilometers) from London, England, to Weilburg, Germany, in 18 hours. Interestingly, they landed in exactly the same spot that Jean Pierre Blanchard had landed on his 1785 balloon flight.
During the nineteenth century, balloonists had blazed a trail into the upper air, sometimes with tragic results. In 1862 Henry Coxwell and James Glaisher almost died at 30,000 feet (9,144 meters). Sivel and Crocé-Spinelli, who ascended in the balloon Zénith in April 1875 with balloonist Gaston Tissandier, died from oxygen deprivation. The last men of the era of the nineteenth century to dare altitudes over 30,000 feet (9,144 meters) were Herr Berson and Professor Süring of the Prussian Meteorological Institute, who ascended to 35,500 feet (10,820 meters) in 1901, a record that stood until 1931.
The first men to reach 30,000 feet (9,144 meters) did not know what they were facing. It is now known that at an altitude of only 10,000 feet (3,048 meters), the brain loses 10 percent of the oxygen it needs and judgment begins to falter. At 18,000 feet (5,486 feet), there is a 30 percent decrease in oxygen to the brain, and a person can lose consciousness in 30 minutes. At 30,000 feet (9,144 meters), loss of consciousness occurs in less than a minute without extra oxygen.
In 1927, aeronaut Captain Hawthorne C. Gray, of the U.S. Army Air Corps, ventured into the stratosphere. He set a U.S. altitude record at 29,000 feet (8,839 meters) on his first flight, and although he attained 42,000 feet (13,222 meters) on his second flight, it was not an official record, because he had to parachute out of his balloon as it descended to save himself. His balloon, Army No. S-30-241, was a 70,000-cubic-foot (1,982-cubic-meter) single-ply rubberized silk envelope coated with aluminum paint. Gray's three flights offered him the opportunity to test high-altitude clothing, oxygen systems, and instruments as well as set a new record. On his third flight in November 1927, he reached 42,000 feet (13,222 meters) again, but ran out of oxygen on the descent. He arrived on the ground with his balloon, but he was dead. It was the last high-altitude flight in an open basket until 1955, when these types of projects were reinstated to develop pressure and spacesuits.
Gray 's death underscored the central problem facing high-altitude balloonistssomewhere between 40,000 and 50,000 feet (12,192 and 15,240 meters), the air pressure becomes so reduced that a person's lungs cannot function and gases begin to bubble out of the blood. To fly above 40,000 feet (12,192 meters) without a pressure garment or the protection of a pressurized vessel was to invite death.
The 1930s saw a large number of flights into the stratosphere. Auguste Piccard led the efforts. He had an absolute faith that science could solve anything, and he considered the problem of oxygen deprivation to be no obstacle. A leading cosmic ray investigator, he needed to rise above the atmosphere to study it. Obviously, he would have to design a sealed, pressurized gondola.
Using an apparatus developed by the Germans for use in submarines during World War I, Piccard built a gondola sphere 82 inches (208 centimeters) in diameter that weighed 300 pounds (136 kilograms). The gondola was designed to keep two people alive for up to 10 hours above 40,000 feet (12,192 meters). The apparatus released pure oxygen into the cabin while scrubbing and recirculating cabin air by filtering it through alkalai.
Piccard also solved the problem of the lifting gas of the balloon leaking away as it expanded during ascent by using a balloon envelope five times larger than necessary to get off the ground. The lifting gas would remain inside the balloon envelope as it expanded, giving him enough lift to return safely to Earth as the gas cooled at night. His 500,000-cubic-foot (1,416-cubic-meter) gas bag, fully inflated, could have lifted a locomotive.
On May 27, 1931, Piccard and Paul Kipfer climbed into the stratosphere in a spherical, airtight, metal cabin suspended from a specially constructed, hydrogen-filled balloon. This balloon, with a capacity of 494,400 cubic feet (14,000 cubic meters), reached an altitude of 51,783 feet (15,787 meters). The following year Piccard ascended to an even higher 53,152 feet (16,200 meters) with Max Cosyns.
Inspired by Piccard's success, the Soviet Union flew the largest balloon built to date, at 860,000 cubic feet (25,353 cubic meters), with a gondola. The balloon reached a record 60,700 feet (18,501 meters) on Sept. 30, 1933.
Not to be outdone, the United States flew the Century of Progress, whose team was headed by Auguste Piccard's twin brother Jean Piccard, with a gondola to a record height of 61,000 feet (18,592 meters) on November 20, 1933. The balloon carried two instruments to measure how gas conducted cosmic rays, a cosmic ray telescope, a polariscope to study the polarization of light at high altitudes, fruit flies to study genetic mutations for the U.S. Department of Agriculture, and an infrared camera to study the ozone layer.
The next year on January 30, 1934, a Soviet balloon flew to 72,000 feet (21,946 meters), but it descended too quickly and the crew died.
In 1934, the U.S. Army Air Corps again began to participate in high-altitude flights. Captain Albert W. Stevens piloted the Explorer I and Explorer II. Explorer I had a balloon of 3,000,000 cubic feet (84,950 cubic meters), five times the volume of the Century of Progress. The first flight of Explorer I climbed to 60,613 feet (18,475 meters) on July 27, 1934, but the balloon ripped. and Stevens, co-pilot Maj. William Ellsworth Kepner, and Orvil A. Anderson, operations officer, had to parachute to safety.
Later that year, Jean Piccard and his wife, Jeannette Piccard, flew the refurbished Century of Progress safely to 58,000 feet (17,678 meters). As the first woman to fly to the substratosphere, Jeannette Piccard received a lot of publicity. Some organizations felt that a mother should not be taking such risks. When she was asked if she was afraid, she replied, "Even if one were afraid to die, there is so much of interest in a stratosphere trip that one does not have time to be afraid. It is too absorbing, too interesting."
In June 1935, a Soviet mission climbed to 52,800 feet (16,093 meters) in a balloon. This was the first of many flights taken by the Soviets to systematically explore the upper atmosphere, emphasizing physics over records.
Explorer II was the last high-altitude flight of the 1930s. It had an envelope of 3,700,000 cubic feet (104,772 cubic meters) and was the first helium balloon. Its sealed gondola kept the crew from freezing to death and their blood from boiling due to the low air pressure. On November 10, 1935, Explorer II reached 72,395 feet (22,066 meters), high enough to see the curvature of the Earth. Piloted by Anderson and Stevens, it set a world altitude record that would stand for the next 21 years.
Their flight marked the end of the great era of human stratosphere ballooning. The enormous and heavy balloon envelopes had clearly reached the limits of rubberized fabric balloon technology, and a worldwide depression was setting in. At the cost of additional lives, the absolute ceiling between 40,000 and 50,000 feet (12,192 and 15,240 meters), where life could no longer be sustained, had been breached, paving the way for the next wave of exploration.
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