Bathyscaphe

Summary

A bathyscaphe (/ˈbæθɪˌskf, -ˌskæf/) is a free-diving, self-propelled deep-sea submersible, consisting of a crew cabin similar to a Bathysphere, but suspended below a float rather than from a surface cable, as in the classic Bathysphere design.[1]

Bathyscaphe Trieste before its only dive into the Mariana Trench
The Trieste in 1958

The float is filled with gasoline because it is readily available, buoyant, and, for all practical purposes, incompressible. The incompressibility of the gasoline means the tanks can be very lightly constructed, since the pressure inside and outside the tanks equalises, eliminating any differential. By contrast, the crew cabin must withstand a huge pressure differential and is massively built. Buoyancy at the surface can be trimmed easily by replacing gasoline with water, which is denser.[citation needed]

Auguste Piccard, inventor of the first bathyscaphe, composed the name bathyscaphe using the Ancient Greek words βαθύς (bathús), meaning "deep", and σκάφος (skáphos), meaning "vessel, ship".

Mode of operation edit

To descend, a bathyscaphe floods air tanks with sea water, but unlike a submarine the water in the flooded tanks cannot be displaced with compressed air to ascend, because the water pressures at the depths for which the craft was designed to operate are too great. For example, the pressure at the bottom of the Challenger Deep is more than seven times that in a standard "H-type" compressed gas cylinder. Instead, ballast in the form of iron shot is released to ascend, the shot being lost to the ocean floor. The iron shot containers are in the form of one or more hoppers which are open at the bottom throughout the dive, the iron shot being held in place by an electromagnet at the neck. This is a fail-safe device as it requires no power to ascend; in fact, in the event of a power failure, shot runs out by gravity and ascent is automatic.

 
Internal arrangement of Trieste.

History of development edit

The first bathyscaphe was dubbed FNRS-2, named after the Fonds National de la Recherche Scientifique, and built in Belgium from 1946 to 1948 by Auguste Piccard. (FNRS-1 had been the balloon used for Piccard's ascent into the stratosphere in 1938). Propulsion was provided by battery-driven electric motors.[1] The float held 37,850 litres (8,330 imp gal; 10,000 US gal) of aviation gasoline. There was no access tunnel; the sphere had to be loaded and unloaded while on deck. The first journeys were detailed in the Jacques Cousteau book The Silent World. As described in the book, "the vessel had serenely endured the pressure of the depths, but had been destroyed in a minor squall". FNRS-3 was a new submersible, using the crew sphere from the damaged FNRS-2, and a new larger 75,700 litres (16,700 imp gal; 20,000 US gal) float.

Piccard's second bathyscaphe was actually a third vessel Trieste, which was purchased by the United States Navy from Italy in 1957.[1] It had two water ballast tanks and eleven buoyancy tanks holding 120,000 litres (26,000 imp gal; 32,000 US gal) of gasoline.[2]

Accomplishments edit

In 1960 Trieste, carrying Piccard's son Jacques Piccard and Don Walsh, reached the deepest known point on the Earth's surface, the Challenger Deep, in the Mariana Trench in the Pacific Ocean.[1]

The onboard systems indicated a depth of 37,800 ft (11,521 m) but this was later corrected to 35,813 ft (10,916 m) by taking into account variations arising from salinity and temperature. Later and more accurate measurements made in 1995 have found the Challenger Deep to be slightly shallower at 35,798 ft (10,911 m).

The crew of the Trieste, which was equipped with a powerful light, noted that the seafloor consisted of diatomaceous ooze and reported observing "some type of flatfish, resembling a sole, about 1 foot long and 6 inches across" (30 by 15 cm) lying on the seabed.[3] This put to rest the question of whether or not there was life at such a depth in the complete absence of light.

See also edit

References edit

  1. ^ a b c d Brand, V (1977). "Submersibles – Manned and Unmanned". South Pacific Underwater Medicine Society Journal. 7 (3). ISSN 0813-1988. OCLC 16986801. Archived from the original on 1 August 2008. Retrieved 2008-07-10.{{cite journal}}: CS1 maint: unfit URL (link)
  2. ^ "Chapter 11" (PDF). Wet Paper. Archived from the original (PDF) on 2008-09-11. Retrieved 2008-09-25.
  3. ^ "To the bottom of the sea" Archived 2008-12-03 at the Wayback Machine, T. A. Heppenheimer, AmericanHeritage.com

External links edit

  • Barham EG (May 1963). "Siphonophores and the Deep Scattering Layer". Science. 140 (3568): 826–828. Bibcode:1963Sci...140..826B. doi:10.1126/science.140.3568.826. PMID 17746436. S2CID 43485719.
  • The US Navy account of the dive, with photographs
  • Brewington, Krystal (2003). "Depth of the Deepest Dive in a Bathyscaphe". The Physics Factbook.
  • History of the Bathyscape Trieste
  • FNRS-2
  • "13,000 Feet Under the Sea in the French Bathyscaphe Popular Mechanics, May 1954, pp. 110–111.
  • Deepsea Challenger – Mariana Trench Dive (03/25/2012).