Salmon-class submarine

Last updated
USS Salmon (SS-182), 1938.jpg
USS Salmon on trials in 1938
Class overview
Builders Electric Boat Company, Portsmouth Naval Shipyard, Mare Island Naval Shipyard [1]
OperatorsFlag of the United States (1912-1959).svg  United States Navy
Preceded by Porpoise class [1]
Succeeded by Sargo class [1]
Built1936–1938 [2]
In commission1937–1946 [2]
Completed6 [1]
Retired6 [1]
General characteristics
TypeComposite (direct and diesel-electric) drive fleet submarine [3]
Displacement
  • 1,435 long tons (1,458 t) standard, surfaced [4]
  • 2,198 long tons (2,233 t) submerged [4]
Length308 ft (94 m) [4]
Beam26 ft 1.25 in (7.96 m) [4]
Draft15 ft 8 in (4.78 m) [4]
Propulsion
Speed
  • 21 knots (39 km/h) surfaced [4]
  • 9 knots (17 km/h) submerged [4]
Range11,000 nautical miles (20,000 km) at 10 knots (19 km/h) [4]
Endurance48 hours at 2 knots (3.7 km/h) submerged [4]
Test depth250 ft (76 m) [4]
Complement5 officers, 54 enlisted [4]
Armament

The United States Navy Salmon-class submarines were an important developmental step in the design of the "fleet submarine" concept during the 1930s. An incremental improvement over the previous Porpoise class, they were the first US submarine class to achieve 21 knots with a reliable propulsion plant, allowing them to operate with the Standard-type battleships of the surface fleet. Also, their 11,000 nautical miles (20,000 km) unrefueled range would allow them to operate in Japanese home waters. These rugged and dependable boats provided yeoman service during World War II, along with their immediate successors, the similar Sargo class. [6] In some references, the Salmons and Sargos are called the "New S Class", 1st and 2nd Groups. [7]

Contents

Design

Authorized under the Fiscal Year 1936 provision of the Vinson-Trammell Act, [8] two distinct, but very similar, designs were developed, to be built by three different constructors. The Electric Boat Company of Groton, Connecticut designed and built Salmon, Seal, and Skipjack (SS-182 to 184). The Navy's lead submarine design entity, the Portsmouth Naval Shipyard of Kittery, Maine submitted a design for the Government group, which became Snapper and Stingray (SS-185 & 186). Using the Portsmouth plans and acting as a follow yard, the Mare Island Naval Shipyard of Vallejo, California built Sturgeon (SS-187). [9] The two designs differed in minor details such as the locations of the access hatches for the forward engine room and crew's quarters, the shape of the horizontal conning tower cylinder, and, most significantly, the closure of the main induction valve. This difference led to casualties in Snapper and Sturgeon, and to the loss of Squalus. [10] Larger than the design of the Porpoise-class, the conning tower installed by Electric Boat had two concave spherical ends, The Portsmouth design had a concave end aft and a convex one forward. Portsmouth and Mare Island ran into production difficulties with their conning towers, discovering cracks that caused the cylinder to fail the required pressure test. The problem was successfully fixed, but the experience caused the government yards to adopt the double concave design for the next several years. [11]

Externally, there were minor differences in the shape of the upper edge of the aft end of the conning tower fairwater. The Electric Boat design had a gradual downward taper to this bulwark, the Government design was slightly higher and straighter. Also, as built the Electric Boat trio had two 34 foot periscopes. This resulted in a fairly small periscope shear support structure above the fairwater. The three Government boats had one 34 foot and one 40 foot periscope and this necessitated a taller shear and support stanchions. [12]

The Electric Boat-built Porpoises had been built to an all-welded design. Conservative engineers and shipfitters at the Government yards stuck with tried and true riveting. Electric Boat's method proved superior, providing a stronger and tighter boat, as well as preventing leakage of fuel oil tanks after depth charge attacks. [13] Finally convinced of the efficacy of Electric Boat's innovation, Government yards finally converted wholesale to welding for their three Salmons and the Navy was entirely happy with the results. [14]

The six boats of this class were straight forward derivations of the later boats of the preceding Porpoise class. Although considered to be successful in most respects, valuable lessons had been learned from the Porpoises and operating experience showed the need to expand the operating envelope. The Salmons were longer, heavier, and faster versions with a better internal arrangement and a heavier armament. Two additional torpedo tubes were added to the aft torpedo room, for a total of four forward and four aft. [15] The development of the Torpedo Data Computer, making broadside attacks practical, had made stern tubes more desirable. [16] Some submariners wanted six tubes forward, but design philosophy and tactics of the day did not yet support this; additionally, for years the tonnage required to provide the extra tubes was over-estimated. [17] However, in an effort to increase the number of torpedoes carried, four non-firing torpedo stowage tubes were installed in the superstructure below the main deck, stacked vertically, two each on either side of the conning tower. In order to access the weapons in these tubes, the boat had to surface and remove a portion of the decking on either side of the deck gun. Small boats stowed there for running sailors ashore for liberty were removed and set in the water. The weapons were extracted from the tubes one by one and winched up to the main deck. They were then placed on a raised loading skid and carefully lowered on an angle through a hatch into the forward torpedo room. This whole process took several hours to complete. The impracticality of spending several hours on the surface in enemy waters moving torpedoes below was lost on the designers. War experience led to the removal of these tubes during the boats' first wartime overhauls. [18]

Two different main (diesel) engine types were installed in these boats during construction. The Government boats received a new model GM-Winton 16-248 V16. Steady development work by GM-Winton had largely corrected earlier problems and this engine proved to be fairly reliable and rugged. The three Electric Boat units received a nine-cylinder version of the Hooven-Owens-Rentschler (HOR) double-acting engine. This was based on a successful steam engine design. Having a power stroke in both directions of the piston, this engine promised nearly twice the horsepower in a size similar to a conventional in-line or V-type engine. Unfortunately, HOR encountered severe design and manufacturing difficulties converting the concept to internal combustion. They vibrated excessively due to imbalances in the combustion chambers. This broke engine mounts and caused difficulties in the drive train. Improper manufacture of the gearing resulted in broken gear teeth. Reluctant to give up on the promise of the engine, the Navy coddled the HORs along until after the United States entered the Pacific War following the attack on Pearl Harbor, when increased funding and operational needs caused these engines to be replaced with GM-Winton 16-278As during the boat's first wartime overhauls. [19] [20] [21]

Serious problems were encountered with the Porpoise-class' diesel-electric drive. This drove the decision to radically alter the propulsion plant. The Salmons were fitted with a so-called "composite drive". In this arrangement, two main engines in the forward engine room drove generators in the fashion set by the Porpoises. In the after engine room, two side-by-side engines were clutched to reduction gears which sat forward of the engines, with vibration-isolating hydraulic clutches. [22] The propeller shafts led aft from each of the reduction gears, and were sited outboard of the engines. Two high-speed electric motors were mounted outboard of each shaft, connected directly to the reduction gears. For surfaced operation the engines were clutched in to the reduction gears and drove the propellers directly, with the generator engines providing additional voltage to the motors. For submerged operation, the direct drive engines were declutched from the reduction gears and the motors drove the shafts with electricity supplied by the batteries. Since World War I the US Navy had sought a 21-knot fleet submarine to maneuver with the Standard-type battleships. The first attempts, with the AA-1 class and the Barracuda-class "V-boats" in the 1920s, were failures due to unreliable engines. The Salmons were the first US submarine class to achieve the desired speed of 21 knots with a reliable propulsion plant. However, this unusual arrangement was quite cramped, making maintenance and repairs in the aft engine room somewhat difficult. [23]

All six of these submarines (and all subsequent U.S. Navy submarines up to the late 1940s) were built to a "partial-double hull" design. In this hull type, the inner pressure resisting hull is wrapped by an outer hydrodynamically smooth hull. The space between these two hulls is used for ballast and fuel tanks. The outer hull smoothly tapers into the pressure hull in the area of the forward and after torpedo room bulkheads, leaving the pressure hull exposed at the extreme ends of the boat. This is actually an advantage as it allows access to the pressure hull in these areas for maintenance. In a full double hull boat, the outer hull completely encompasses the pressure hull and the very narrow ends make it very hard to reach the pressure hull for repairs and maintenance. [24]

Ships in class

Construction data
NameHull no.BuilderLaid downLaunchedCommissionedDecommissionedFate
Salmon SS-182 Electric Boat 15 April 193612 June 193715 March 193824 September 1945Scrapped 1946
Seal SS-18325 May 193625 April 193730 April 193815 November 1945Reserve training ship; scrapped 1956
Skipjack SS-18422 July 193623 October 193730 June 193828 August 1946Sunk as nuclear testing target July 1946, raised and expended as target August 1948
Snapper SS-185 Portsmouth Navy Yard 23 July 193624 August 193715 December 193717 November 1945Scrapped 1948
Stingray SS-1861 October 19366 October 193715 March 193817 October 1945Scrapped 1946
Sturgeon SS-187 Mare Island Navy Yard 27 October 193615 March 193825 June 193815 November 1945Scrapped 1948

Service history

Commissioning and pre-war service

Portsmouth proved to be quite efficient in their production methods and they managed to complete and commission both Snapper and Stingray before Electric Boat delivered the lead boat Salmon for commissioning. In fact, all three of the Government built boats of this class beat their commercially built counterparts into service. [9]

After commissioning, these boats were very active in the fleet, operating initially with the Atlantic Fleet, conducting exercises in the Caribbean and around both sides of the Panama Canal. They transferred to the Pacific Fleet in late 1939, homeported out of San Diego, commanded by COMSUBPAC Admiral Wilhelm L. Friedell. [25] In October 1941, as war clouds loomed on the horizon, all the Salmons and most other newer available submarines were transferred to the Asiatic Fleet as part of a belated effort to reinforce U.S. and Allied forces in the Philippines. The Japanese occupation of southern Indo-China and the August 1941 American-British-Dutch retaliatory oil embargo had raised international tensions. They operated out of Cavite in Manila Bay until the war commenced. [26]

World War II

Periscope photo of Yamakaze sinking. Torpedoed Japanese destroyer Yamakaze sinking on 25 June 1942.jpg
Periscope photo of Yamakaze sinking.

From the very start, the Salmons were in the thick of the fight in the defense of the Philippines. The submarines of the Asiatic Fleet were the primary striking force available to Admiral Thomas C. Hart, the fleet's commander. He was assigned sixteen Salmons or Sargos, the entirety of both classes. [27] The Japanese did not bomb Cavite Navy Yard until 10 December 1941, so almost all of the submarines were able to get underway before an attack.

The qualities designed into the Salmons for their role as fleet submarines made them well suited for the war they found themselves fighting, but some shortcomings came up that were not apparent prior to the war. It came to be realized that the boats were going to spend a lot more time on the surface than what had been previously acknowledged. Thus the large bulk of the conning tower fairwater became a liability. It was too easily spotted by keen-eyed Japanese lookouts using their excellent binoculars. It was found that portions of the fairwater plating could be cut away both fore and aft of the bridge, greatly reducing the silhouette. This also had the desirable effect of creating mounting locations for 20mm Oerlikon autocannons, which were useful against aircraft and small surface targets. [28]

The timely development of radar in the USN proved to be a key factor in the eventual victory over the Imperial Japanese Navy, and its incorporation into the Salmons and other USN submarines gave them a critical advantage in detection and defense. The first sets became available within days of the war beginning, and they were introduced to the boats as they went into overhaul in 1942. [29]

The original Mark 21 3-inch (76 mm)/50 caliber deck gun proved to be too light in service. It lacked sufficient punch to finish off crippled or small targets quickly enough to suit the crews. It was replaced by the Mark 9 4-inch (102 mm)/50 caliber gun in 1943–44, in most cases removed from an S-boat being transferred to training duty. [30]

The Submarine Force relied heavily on the well-liked Salmons during the first two and a half years of the war, with some of them completing 15 war patrols before being assigned to training duties by 1945. [31]

Salmon barely survived a severe depth charging by Japanese escort ships on 30 October 1944. She was retired from combat duty and spent the rest of the war as a training boat. [32]

Skipjack was expended as a target twice postwar: once in the Operation Crossroads nuclear weapons tests at Bikini Atoll 25 July 1946, and again as a target for aircraft rockets off California 11 August 1948.

See also

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References

Notes

  1. 1 2 3 4 5 6 7 8 9 10 Bauer, K. Jack; Roberts, Stephen S. (1991). Register of Ships of the U.S. Navy, 1775–1990: Major Combatants. Westport, Connecticut: Greenwood Press. p. 269. ISBN   0-313-26202-0.
  2. 1 2 Friedman, Norman (1995). U.S. Submarines Through 1945: An Illustrated Design History. Annapolis, Maryland: Naval Institute Press. pp. 285–304. ISBN   1-55750-263-3.
  3. 1 2 U.S. Submarines Through 1945 pp. 202–204
  4. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 U.S. Submarines Through 1945 pp. 305–311
  5. Friedman, p. 310
  6. A Visual Guide to the U.S. Fleet Submarines Part Two: Salmon & Sargo Classes 1936-1945 Johnston, David (2010) PigBoats.COM
  7. Silverstone, pp. 190-193
  8. Alden, John D., Commander (USN Ret). The Fleet Submarine in the U.S. Navy: A Design and Construction History (Annapolis, 1979), pp.218-219.
  9. 1 2 Alden, pp.250-251
  10. Blair, Silent Victory (New York, 1976), p.67.
  11. Alden, pp.50 and 65
  12. Johnston, pp.4-5.
  13. Blair, Silent Victory
  14. Alden, p.62
  15. Johnston, pp.2 and 4.
  16. Friedman, p. 201
  17. Friedman, pp. 200-202
  18. Alden, p.50
  19. Alden, pp.55 and 65.
  20. Johnston, p.14
  21. Friedman, pp. 263, 360-361
  22. Friedman, p. 203
  23. Alden, pp.50, 58, and 65.
  24. Alden, pp.5 and 65.
  25. His chief of staff was later COMSUBPAC, Charles A. Lockwood. Blair, Clay, Jr. Silent Victory: The U.S. Submarine War Against Japan (New York, 1976), p.76.
  26. Dictionary of American Naval Fighting Ships online at Hazegray.org
  27. Blair, p.82fn.
  28. Johnston, pp.12-13.
  29. Stern, p.39.
  30. Alden, p.93.
  31. Alden, p.65.
  32. Blair, p.764

Bibliography

  • Alden, John D., Commander (USN, Ret). The Fleet Submarine in the U.S. Navy: A Design and Construction History. Annapolis: Naval Institute Press, 1979. ISBN   0-85368-203-8.
  • Bauer, K. Jack; Roberts, Stephen S. (1991). Register of Ships of the U.S. Navy, 1775-1990: Major Combatants. Westport, Connecticut: Greenwood Press. ISBN   0-313-26202-0.
  • Blair, Clay, Jr. Silent Victory: The U.S. Submarine War Against Japan. New York: Bantam, 1976. ISBN   0-553-01050-6.
  • Campbell, John Naval Weapons of World War Two (Naval Institute Press, 1985), ISBN   0-87021-459-4
  • Gardiner, Robert and Chesneau, Roger, Conway's All the World's Fighting Ships 1922-1946, London: Conway Maritime Press, 1980. ISBN   0-83170-303-2.
  • Lenton, H. T. American Submarines (Navies of the Second World War) (Doubleday, 1973), ISBN   0-38504-761-4
  • Roscoe, Theodore. United States Submarine Operations in World War II. Annapolis; Naval Institute Press, 1949. ISBN   0-87021-731-3.
  • Silverstone, Paul H., U.S. Warships of World War II (Ian Allan, 1965), ISBN   0-87021-773-9
  • Stern, Robert C. U.S. Subs in Action (Squadron/Signal Publications, 1979) ISBN   0-89747-085-0.
  • This article incorporates text from the public domain Dictionary of American Naval Fighting Ships .
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