TR-1700-class_submarine

TR-1700-class submarine

TR-1700-class submarine

Argentine submarine class

The TR-1700 (Santa Cruz) is a class of diesel-electric patrol submarines built by Thyssen Nordseewerke for the Argentine Navy in the 1980s, with two submarines completed. These ships are amongst the largest submarines built in Germany since World War II and are among the fastest diesel-electric submarines in the world.[3] ARA San Juan was lost on 17 November 2017, leaving ARA Santa Cruz as the only remaining submarine of this class. As of 2020, the refit of Santa Cruz has been reported cancelled leaving the entire class inactive.[4][5]

Quick Facts Class overview, General characteristics ...

Development

The original 1977 plan called for six boats, two TR-1700s built in Germany by Thyssen Nordseewerke, two in Argentina by Astillero Domecq Garcia, and two smaller TR-1400s also built in Argentina.[6] The final agreement in 1982 was modified to six TR-1700s, with the last four to be built in Argentina.[7]

Possible nuclear propulsion

The TR-1700s to be built in Argentina were considered for an upgrade to a nuclear submarine. The use of INVAP's CAREM reactor for that purpose is an 'urban myth,' as such design is inadequate for moving platforms. The nuclear submarine project never came to fruition, despite later attempts to revive it.[8]

The reasons why INVAP's reactor is inviable stem from a number of reasons.[9] The main reasons are:

  • The reactor was not designed from scratch for moving platforms and relies on the naïve and dangerous concept of "one reactor fits all purposes".
  • The design has not considered the dynamic and operational characteristics of the porting platform. This causes problems in the following areas:
    • Thermal problems due to the large diameter of the pellets (7.6mm), which do not allow sudden power ramps, required in a submarine.
    • Wrong type of control rod mechanisms, not adequate for a rolling and pitching vessel. For example, nut-shell control rods would be more appropriate.
    • The continuous movement of the large liquid free-surface inside the reactor, as experienced in vessels of any type (surface or submerged), leave fuel unexposed and, thus, not refrigerated.
    • Steam generators located inside the reactor vessel (instead of outside) increase the diameter of the vessel and thus its weight, unnecessarily, restricting the operational characteristics of the submarine.
    • Inconvenient coupling of various variables due to auto-pressurization.
    • Lack of land prototype on a moving platform (not static). See figure to the right for a Westinghouse prototype for submarines.
    • Numerical simulations for untested designs are not enough, and are only the first step in a series of validations that have to agree with actual experiments. Before offering a reactor as a proposal, any contractor—at their own expense—should perform experiments on moving platforms (water tanks excited to reproduce ship movements) located on land, and demonstrate that they work and agree with the numerical simulations. The reactor should be identical to the reactor proposed to be fitted in a ship or submarine.

Design

The TR-1700 submarine was designed by Thyssen and its features include high underwater speed, endurance (for a diesel submarine), and survivability. The boat's four MTU 16V652 MB80 diesel engines, four generators, and Siemens electric motor can propel it at speeds up to 25 knots (46 km/h; 29 mph).[10][11] Eight 120-cell banks of VARTA batteries are installed on each boat.[12] They have a diving depth of 300 m (980 ft).[2] Normal endurance of these boats is 30 days[1] with an extended range up to 70 days.[citation needed] These boats are equipped to accept a Deep Submergence Rescue Vehicle (DSRV).[citation needed] Armaments include six bow 533 mm (21 in) torpedo tubes and space for 22 torpedoes.[13] The TR-1700 can launch a variety of weapons via its torpedo tubes, such as the wire-guided SST-4 torpedo and the Mark 37C short antisubmarine torpedo.[12] The automatic torpedo reload system can reload sixteen times and reloading the tubes takes 50 seconds.[13][1]

When it comes to the electronics and systems the TR-1700 has a HSA SINBADS Action Information Organisation and Fire Control System that is combined with a SAGEM plotting table.[12] The radar consists of the Thomson-CSF Calypso and it has a Atlas Elektronik CSU 3/4 and Thomson Sintra DUUX-5 as sonars.[13]

Thyssen proposed the TR1700A for the Australian Collins-class submarine program.[14] The proposed design had a reworked pressure hull, was six meters longer, and half a meter wider than the TR-1700s built for Argentina. It lost to the Type 471 from Kockums, an enlarged Västergötland-class submarine.

Service

The first two submarines were delivered on schedule in 1984–85.[13] The remaining four built in Argentina were suspended due to the Argentinean economic crisis of the 1980s.[citation needed] In 1996 work completely ceased on ARA Santa Fe at 70% (or 52%) completion while ARA Santiago del Estero was only 30% complete.[15] After attempts to complete and sell the boats to Taiwan failed, they were cannibalized, along with the parts for the fifth and sixth units, to support the continued operations of the first two submarines.[3]

Santa Cruz received its mid-life modernization at Arsenal de Marinha, Rio de Janeiro Brazil between September 1999 and 2001.[6] The work involved the replacement of the engines, batteries, and sonar. Her sister boat San Juan entered the Astillero Domecq Garcia shipyard to receive her refit in 2007;[16] she completed refit in 2013.[17]

In September 2010, it was revealed that the Ministry of Defense was conducting feasibility studies to decide if ARA Santa Fe (S-43) should be completed. The decision should be made sometime after completing the mid-life modernization of ARA San Juan (S-42). The estimated cost of completing Santa Fe was $60 million.[18][19]

On 17 November 2017, the ARA San Juan was reported missing; reports of a fire at the time were denied by the Argentine Navy.[20][21] A year after that, on 17 November 2018, private company Ocean Infinity (appointed by the Argentine Government) announced that they successfully located the wreck, at 900 metres depth and 500 km from Comodoro Rivadavia.[22]

Boats in class

More information Ship Name, Pennant number ...
  • Argentine Navy ARA San Juan in 2007
  • Argentine Navy TR-1700 submarines ARA Santa Cruz (S-41) and ARA San Juan (S-42)
  • ARA Santa Cruz in Ushuaia, 2008

See also

Notes

    Citations

    1. [1]
      Miller (1989), p. 52.
    2. [2]
      Darman (2004), p. 8.
    3. [3]
      Miller, David (2002). The Illustrated Directory of Submarines. Zenith Press. p. 480. ISBN 0-7603-1345-8.
    4. [4]
      "Estiman que la llegada del próximo submarino operativo para Argentina demoraría de cinco a seis años". 8 September 2020.
    5. [5]
      "A. Rossi (Argentina): "Argentina tiene que tener una Fuerza Aérea con aviones supersónicos" (2) - Noticias Infodefensa América". 23 December 2020.
    6. [6]
      "Santa Cruz class Patrol submarine". Archived from the original on 2008-10-14. Retrieved 2008-10-03.
    7. [7]
      Farley, Robert (20 November 2017). "Everything You Need to Know about Argentina's Submarine Force". The National Interest. Archived from the original on 24 November 2017. Retrieved 23 November 2017.
    8. [8]
      "Promete Garré que se construirá un submarino nuclear en el país". La Nación. Archived from the original on 2012-12-26. Retrieved 2017-11-19.
    9. [9]
      "Versiones Taquigráficas".
    10. [10]
      Watts, Anthony (March 2002). Jane's Underwater Warfare Systems, 2002-2003. Jane's Information Group. p. 629. ISBN 0-7106-2451-4.
    11. [11]
      Miller and Jordan (1987), p. 160.
    12. [12]
      Miller and Jordan (1987), p. 161.
    13. [13]
      Gardiner, Chumbley and Budzbon (1995), p. 11.
    14. [14]
      Woolner, Derek (18 September 2001). Procuring Change: How Kockums was Selected for the Collins Class Submarine. Canberra: Department of the Parliamentary Library. p. 34.
    15. [15]
      Wertheim, Eric (2002). Naval Institute Guide to Combat Fleets of the World: Their Ships, Aircraft, and Systems. US Naval Institute Press. p. 1124. ISBN 1-59114-955-X.
    16. [16]
      "The hull of the S-42 ARA San Juan again soldier". Archived from the original on 2012-04-26. Retrieved 2012-02-24.
    17. [17]
      El arte de reparar submarinos. p. 12, 3 August 2014 Archived 11 May 2016 at the Wayback Machine (2016-05-01)
    18. [18]
      Por primera vez en la historia se construirán en nuestro país submarinos para la Armada Archived 2011-07-23 at the Wayback Machine
    19. [19]
      "Argentina estudia construir submarino nuclear en astilleros propios". FuerzasAeronavales website, by Sergio Garcia Pedroche, 28/09/2010 Archived 2016-08-16 at the Wayback Machine (accessed 2016-07-16)
    20. [20]
      Goñi, Uki (2017-11-17). "Argentina's navy searches for missing submarine with 44 crew on board". The Guardian. ISSN 0261-3077. Archived from the original on 2017-11-17. Retrieved 2017-11-17.
    21. [21]
      La Armada Argentina asegura que, a pesar de la explosión, continuará buscando el submarino San Juan. "diariodenautica.com" Archived 2017-11-26 at the Wayback Machine (in Spanish) (accessed 2017-11-23)
    22. [22]
      Ocean Infinity Locates the Missing Argentinian Submarine, ARA San Juan Latest News, Ocean Infinity website Archived 2018-11-18 at the Wayback Machine (accessed 2018-11-17)
    23. [23]
      Congreso Nacional: del submarino ARA Santa Fe, el cual se encuentra al 70% de su construcción

    Sources

    • Darman, Peter, ed. (2004). Twenty-first Century Submarines and Warships. Military Handbooks. Rochester: Grange Books. ISBN 1-84013-678-2.
    • Gardiner, Robert; Chumbley, Stephen; Budzbon, Przemysław, eds. (1995). Conway's All the World's Fighting Ships 1947–1995. Annapolis: Naval Institute Press. ISBN 1-55750-132-7.
    • Miller, David; Jordan, John (1987). Modern Submarine Warfare. New York: Military Press. ISBN 0-517-64647-1.
    • Miller, David (1989). Modern Submarines. Combat Arms. New York: Prentice Hall Press. ISBN 0-13-589102-7.

    Further reading
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