SEALAB

SEALAB I

SEALAB I, II, and III were experimental underwater habitats developed by the United States Navy in the 1960s to prove the viability of saturation diving and humans living in isolation for extended periods of time. The knowledge gained from the SEALAB expeditions helped advance the science of deep sea diving and rescue, and contributed to the understanding of the psychological and physiological strains humans can endure.

SEALAB I

SEALAB I off Bermuda in 1964.

SEALAB I was lowered off the coast of Bermuda in 1964 to a depth of 58 m (192 feet of seawater (fsw)) below the sea's surface. It was constructed from two converted floats and held in place with axles from railroad cars. The experiment involved four divers (LCDR Robert Thompson, MC; Gunners Mate First Class Lester Anderson, Chief Quartermaster Robert A. Barth, and Chief Hospital Corpsman Sanders Manning), who were to stay submerged for three weeks. The experiment was halted after 11 days due to an approaching tropical storm.[1]

Before the SEALAB habitat could be emplaced, a number of rifle grenades had to be found and removed from the bottom around Argus Island. The grenades had been fired up into the air with the object of targeting their explosions when they returned to the water. With enough impacts the position of Argus Island could be determined to within a few feet. Unfortunately, many grenades did not detonate upon impact with the sea surface, and divers had to locate and remove them. This was a job for divers from the Navy SOFAR Station (Columbia University Geophysical Field Station), and both U.S. Navy and Air Force civilians and enlisted SCUBA divers. A platform which had been built to lower the Remote Underwater Manipulator (RUM) from a garage on Argus Island to the sea floor was also removed. SEALAB I was then placed on the nearly flat bottom on a layer of algal balls and some corals.

SEALAB I was commanded by Captain George F. Bond, also called "Poppa Topside", who was key in developing theories about saturation diving. SEALAB I proved that saturation diving in the open ocean was viable for extended periods. The experiment also offered information about habitat placement, habitat umbilicals, humidity, and helium speech descrambling.[1]

SEALAB I is on display at the Museum of Man in the Sea, in Panama City Beach, Florida, near where it was initially tested offshore before being deployed. It is on outdoor display. Its metal hull is largely intact, though the paint is faded to a brick red.[2]

Anne Rudloe third from left in United States Naval base in Panama City in underwater research and diving techniques 1960s. In the back row, fourth from the right, is Dr. (Captain) George F. Bond, senior medical officer and principal investigator for the Sealab I and Sealab II experiments in the mid-1960's.

SEALAB II

SEALAB II above surface
Tuffy the dolphin delivered supplies to SEALAB II

SEALAB II was launched in 1965, and unlike SEALAB I, it included hot showers and refrigeration. It was placed in the La Jolla Canyon off the coast of Scripps Institution of Oceanography/UCSD, in La Jolla, California, at a depth of 62 m (205-ft). On August 28, 1965, the first of three teams of divers moved into what became known as the "Tilton Hilton" (Tiltin' Hilton, because of the slope of the landing site).

Each team spent 15 days in the habitat, but aquanaut/astronaut Scott Carpenter remained below for a record 30 days. In addition to physiological testing (described in the book by Radloff & Helmreich), the divers tested new tools, methods of salvage, and an electrically heated drysuit.[3][4] They were aided by a bottlenose dolphin named Tuffy from the U.S. Navy Marine Mammal Program. Aquanauts and Navy trainers attempted, with mixed results, to teach Tuffy to ferry supplies from the surface to SEALAB or from one diver to another, and to come to the rescue of an aquanaut in distress.[5][6][7] There were plans for Tuffy also to take part in SEALAB III.[8][9]

A sidenote from SEALAB II was a congratulatory telephone call that was arranged for Carpenter and President Lyndon B. Johnson. Carpenter was calling from a decompression chamber with helium gas replacing nitrogen, so Carpenter sounded unintelligible to operators.[10] The tape of the call circulated for years among Navy divers before it was aired on NPR in 1999.[11]

The SEALAB II habitat was located off the Scripps pier in La Jolla, California.[12] In 2002, a group of researchers from the Scripps Institution of Oceanography's High Performance Wireless Research and Education Network boarded the MV Kellie Chouest and used a Scorpio ROV to find the site of the SEALAB habitat.[12] This expedition was the first return to the site since the habitat was moved.[12]

SEALAB III

Four years later, SEALAB III used a refurbished SEALAB II habitat, but was placed in water three times as deep. Five teams of nine divers were scheduled to spend 12 days each in the habitat, testing new salvage techniques and conducting oceanographic and fishery studies.[13][14] Preparations for such a deep dive were extensive. In addition to many biomedical studies, work-up dives were conducted at the U.S. Navy Experimental Diving Unit at the Washington D.C. Navy Yard. These “dives” were not done in the open sea, but in a special hyperbaric chamber that could recreate the pressures at depths as great as 1,025 fsw (312 m).

SEALAB III

According to John Piña Craven, the U.S. Navy's head of the Deep Submergence Systems Project of which SEALAB was a part, SEALAB III "was plagued with strange failures at the very start of operations".[15] On February 15, 1969, SEALAB III was lowered to 610 fsw (185 m), off San Clemente Island, California. The habitat soon began to leak and four divers were sent to repair it, but they were unsuccessful. During the second attempt, aquanaut Berry L. Cannon died.[16] It was found that his rebreather was missing baralyme, the chemical necessary to remove carbon dioxide.[16] Surgeon commander John Rawlins, a Royal Navy medical officer assigned to the project, also suggested that hypothermia during the dive was a contributing factor to the problem not being recognized by the diver.[17]

According to Craven, while the other divers were undergoing the week-long decompression, repeated attempts were made to sabotage their air supply by someone aboard the command barge. Eventually, a guard was posted on the decompression chamber and the men were recovered safely. A potentially unstable suspect was identified by the staff psychiatrist but the culprit was never prosecuted. Craven suggests this may have been done to spare the Navy bad press so soon after the USS Pueblo incident. The SEALAB program came to a halt, and although the habitat was retrieved,[15] it was eventually scrapped. Aspects of the research continued[18] in classified military programs , but no new habitats were built.

NCEL of Port Hueneme, CA (now a part of NFESC), was responsible for the handling of several contracts involving life support systems used on SEALAB III.[19]

See also

References

  1. 1 2 Murray, John (2005). ""Papa Topside", Captain George F. Bond, MC, USN" (PDF). Faceplate 9 (1): 8–9. Retrieved 2010-01-15.
  2. Ecott, Tim (2001). Neutral Buoyancy: Adventures in a Liquid World. New York: Atlantic Monthly Press. ISBN 0-87113-794-1. LCCN 2001018840.
  3. Radloff, Roland and Helmreich, Robert (1968). Groups Under Stress: Psychological Research in Sealab II. Appleton-Century-Crofts. ISBN 0-89197-191-2.
  4. Clarke TA, Flechsig AO, Grigg RW (September 1967). "Ecological studies during Project Sealab II. A sand-bottom community at depth of 61 meters and the fauna attracted to "Sealab II" are investigated". Science 157 (3795): 1381–9. Bibcode:1967Sci...157.1381C. doi:10.1126/science.157.3795.1381. PMID 4382569. Retrieved 2008-07-08.
  5. Miller, James W.; Koblick, Ian G. (1984). Living and Working in the Sea. New York, New York: Van Nostrand Reinhold Company. pp. 60–61. ISBN 0-442-26084-9.
  6. "Aquanauts and Sealab". U.S. Navy Museum, Naval History & Heritage Command, United States Navy. Retrieved February 21, 2012.
  7. Hellwarth, Ben (2012). Sealab: America's Forgotten Quest to Live and Work on the Ocean Floor. New York: Simon & Schuster. pp. 147–148, 327. ISBN 978-0-7432-4745-0. LCCN 2011015725.
  8. Hellwarth, p. 173.
  9. "Lost and Found Sound: The Stories - LBJ & the Helium Filled Astronaut". The Kitchen Sisters. 1999. Retrieved February 9, 2012.
  10. LBJ & the Helium-Filled Astronaut - Lost and Found Sound: A Bizarre Phone Conversation, All Things Considered, October 15, 1999
  11. 1 2 3 staff (2002-02-13). "Wireless tests aboard US Navy ship include exploration of USN/SIO Sea Lab II". High Performance Wireless Research and Education Network. Retrieved 2011-02-18.
  12. Kuling JW, Summitt JK (1970). "Saturation Dives, with Excursions, for the Development of a Decompression Schedule for Use during SEALAB III". US Naval Experimental Diving Unit Technical Report. NEDU-RR-9-70. Retrieved 2008-07-08.
  13. Crowley RW, Summitt JK (1970). "Report of Experimental Dives for SEALAB III Surface Support Decompression Schedules". US Naval Experimental Diving Unit Technical Report. NEDU-RR-15-70. Retrieved 2008-07-08.
  14. 1 2 Craven, John Piña (2001). The Silent War: The Cold War Battle Beneath the Sea, New York: Simon & Schuster. ISBN 0-684-87213-7
  15. 1 2 staff (1969-02-28). "Oceanography: Death in the Depths". Time (magazine). Retrieved 2011-02-18.
  16. Davis, Michael (1979). "Immersion hypothermia in scuba diving.". South Pacific Underwater Medicine Society Journal (reprint from New Zealand Journal of Sports Medicine) 9 (2). Retrieved 2011-07-29.
  17. Searle, Willard F; Kunz, HS (1969). "Test procedures for supervisor of salvage sponsored work projects for Sealab III". Deep Submergence Systems, Office of Naval Research.
  18. Bayles, John J. and Taylor, Douglas. "Aquanauts Composite Life Support Umbilicals - SEALAB III. (2005)". Retrieved 2008-08-27.

Bibliography

External links

This article is issued from Wikipedia - version of the Thursday, February 11, 2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.