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Lockheed S-3 Viking

March 17, 2024

The Lockheed S-3 Viking is a four-crew, twin-engine turbofan-powered jet aircraft designed and produced by the American aerospace manufacturer Lockheed Corporation. Because of its characteristic sound, it was nicknamed the "War Hoover" after the vacuum cleaner brand.

S-3 Viking
An S-3A Viking from ASW squadron VS-37 Sawbucks
Role Carrier-based anti-submarine aircraft
National origin United States
Manufacturer Lockheed Corporation
First flight 21 January 1972
Introduction 20 February 1974
Retired 2016 (Navy)
2021 (NASA)
Primary users United States Navy
NASA
Produced 1974–1978
Number built 188

The S-3 was developed in response to the VSX program conducted by the U.S. Navy (USN) to procure a successor anti-submarine warfare (ASW) aircraft to the Grumman S-2 Tracker. It was designed, with assistance from Ling-Temco-Vought (LTV), to be a carrier-based, subsonic, all-weather, long-range, multi-mission aircraft.

On 21 January 1972, the prototype YS-3A performed the type's maiden flight. Upon entering regular service during February 1974, it proved to be a reliable workhorse. In the ASW role, the S-3 carried automated weapons and in-flight refueling gear. Further variants, such as the ES-3A Shadow carrier-based electronic intelligence (ELINT) platform, and the US-3A carrier-based utility and cargo transport, arrived during the 1980s and 1990s. In the late 1990s, the S-3B's mission focus shifted to surface warfare and aerial refueling a carrier battle group. It saw combat during the Gulf War of the early 1990s, the Yugoslav Wars of the mid-to-late 1990s, and the War in Afghanistan during the 2000s.

The S-3 was removed from front-line fleet service aboard aircraft carriers in January 2009, its missions having been taken over by the P-3C Orion, P-8 Poseidon, SH-60 Seahawk, and F/A-18E/F Super Hornet. For more than a decade after that, some S-3s were flown by Air Test and Evaluation Squadron Thirty (VX-30) at Naval Base Ventura County / NAS Point Mugu, California, for range clearance and surveillance operations at the NAVAIR Point Mugu Range. These final examples in U.S. Navy service were retired in early 2016. The last operational S-3 was used by the National Aeronautics and Space Administration (NASA) at its Glenn Research Center until NASA retired it in mid-2021. Most retired S-3s were placed into storage while options for their future were investigated. During the 2010s, Lockheed Martin proposed to refurbish them for carrier onboard delivery. The Republic of Korea Navy also had plans to operate revived S-3s for ASW; these plans were cancelled in 2017.

Development edit

 
YS-3A prototype
 
S-3 escape system testing

In the mid-1960s, the United States Navy (USN) formulated the VSX (Heavier-than-air, Anti-submarine, Experimental) requirement, which sought a dedicated anti-submarine aircraft capable of flying off of its aircraft carriers as a replacement for its existing inventory of piston-engined Grumman S-2 Trackers. The service issued a request for proposals to industry. During August 1968, a team led by Lockheed, as well as a rival team comprising Convair and Grumman, were requested to further develop their proposals to meet this requirement.[1]

At this stage, Lockheed recognised that it had little experience in designing carrier based aircraft, thus the company reached out to the industrial conglomerate Ling-Temco-Vought (LTV), which joined the team. LTV assumed responsibility for the design of various elements of the airframe, such as the folding wings and tail, the engine nacelles, and the landing gear, some of which had been derived from the earlier LTV A-7 Corsair II and Vought F-8 Crusader. Sperry Univac Federal Systems was assigned the task of developing the aircraft's onboard computers which integrated input from sensors and sonobuoys.[2][3]

On 4 August 1969, Lockheed's design was selected as the winner of the VSX contest; an order for eight prototypes, designated YS-3A, was promptly received by the company.[4][5] On 21 January 1972, the first prototype performed its maiden flight in the hands of military test pilot John Christiansen.[6][2] Flight testing proceeded quickly with no major issues; two years later, the S-3 entered operational service with the U.S. Navy. During the type's production run, which ran from 1974 to 1978, a total of 186 S-3As were constructed.[5] The majority of the surviving S-3As were later upgraded to the improved S-3B variant, while 16 aircraft were also converted into ES-3A Shadow electronic intelligence (ELINT) collection aircraft.

Design edit

The Lockheed S-3 Viking is a conventional monoplane with a cantilever shoulder wing,[7] very slightly swept with a leading edge angle of 15° and an almost straight trailing edge. Its twin GE TF-34 high-bypass turbofan engines mounted in nacelles under the wings provide excellent fuel efficiency, providing the Viking with the required long range and endurance,[8] while also maintaining relatively docile engine-out characteristics.[9]

 
S-3A with extended MAD-sensor

The aircraft can seat four crew members (three officers and one enlisted) with pilot and copilot/tactical coordinator (COTAC) in the front of the cockpit and the tactical coordinator (TACCO) and sensor operator (SENSO) in the back.[5] Entry is via a hatch/ladder folding down out of the lower starboard side of the fuselage behind the cockpit, in between the rear and front seats on the starboard side.[8] When the aircraft's anti-submarine warfare (ASW) role ended in the late 1990s, the enlisted SENSOs were removed from the crew. In tanker crew configuration, the S-3B typically flew with a pilot and co-pilot/COTAC.[10][self-published source] The wing is fitted with leading edge and Fowler flaps. Spoilers are fitted to both the upper and the lower surfaces of the wings. All control surfaces are actuated by dual hydraulically boosted irreversible systems. In the event of dual hydraulic failures, an Emergency Flight Control System (EFCS) permits manual control with greatly increased stick forces and reduced control authority.[11]

Unlike many tactical jets which required ground service equipment, the S-3 was equipped with an auxiliary power unit (APU) and capable of unassisted starts. The aircraft's original APU could provide only minimal electric power and pressurized air for both aircraft cooling and for the engines' pneumatic starters. A newer, more powerful APU could provide full electrical service to the aircraft. The APU itself was started from a hydraulic accumulator by pulling a handle in the cockpit. The APU accumulator was fed from the primary hydraulic system, but could also be pumped up manually (with much effort) from the cockpit.[10][self-published source]

All crew members sit on forward-facing, upward-firing Douglas Escapac zero-zero ejection seats. In "group eject" mode, initiating ejection from either of the front seat ejects the entire crew in sequence, with the back seats ejecting 0.5 seconds before the front in order to provide safe separation (this was to prevent the pilots, who were more aware of what was happening outside the aircraft from ejecting without the rest of the crew, or being forced to delay ejection to order the crew to eject in an emergency; ejection from either rear seat would not eject the pilots, who had to initiate their own ejections, to prevent loss of the aircraft if a rear crewmember ejected prematurely. If a pilot ejected prematurely, the plane was lost anyway, and automatic ejection prevented the crew from crashing with a pilot-less aircraft before they were aware of what had happened). The rear seats are capable of self ejection and the ejection sequence includes a pyrotechnic charge that stows the rear keyboard trays out of the occupants' way immediately before ejection. Safe ejection requires the seats to be weighted in pairs, and when flying with a single crewman in the back the unoccupied seat is fitted with ballast.[10][self-published source]

At the time it entered the fleet, the S-3 introduced an unprecedented level of systems integration. Previous ASW aircraft like the Lockheed P-3 Orion and S-3's predecessor, the Grumman S-2 Tracker, featured separate instrumentation and controls for each sensor system. Sensor operators often monitored paper traces, using mechanical calipers to make precise measurements and annotating data by writing on the scrolling paper. Beginning with the S-3, all sensor systems were integrated through a single General Purpose Digital Computer (GPDC). Each crew station had its own display, the co-pilot/COTAC, TACCO and SENSO displays were Multi-Purpose Displays (MPD) capable of displaying data from any of a number of systems. This new level of integration allowed the crew to consult with each other by examining the same data at multiple stations simultaneously, to manage workload by assigning responsibility for a given sensor from one station to another and to easily combine clues from each sensor to classify faint targets. As a consequence of this integration, the four-crew S-3 was considered roughly equivalent in terms of capability to the much larger P-3, operated by a crew of 12.[citation needed]

The aircraft has two underwing hardpoints that can be used to carry fuel tanks, general purpose and cluster bombs, missiles, rockets, and storage pods.[5] It also has four internal bomb bay stations that can be used to carry general-purpose bombs, aerial torpedoes, and special stores (B57 and B61 nuclear weapons). Fifty-nine sonobuoys are carried, as well as a dedicated Search and Rescue (SAR) chute. The S-3 is fitted with the ALE-39 countermeasure system and can carry up to 90 rounds of chaff, flares, and expendable jammers (or a combination of all) in three dispensers. A retractable magnetic anomaly detector (MAD) Boom is fitted in the tail.[5]

In the late 1990s, the S-3B's role was changed from anti-submarine warfare (ASW) to anti-surface warfare (ASuW). As a consequence of this role change, the MAD Boom was removed, along with several hundred pounds of submarine detection electronics. As there was no remaining sonobuoy processing capability, most of the sonobuoy chutes were faired over with a blanking plate.[citation needed]

Operational history edit

 
S-3A replaced the outdated S-2 Tracker in 1975

On 20 February 1974, the S-3A officially became operational with the Air Antisubmarine Squadron FORTY-ONE (VS-41), the "Shamrocks," at NAS North Island, California, which served as the initial S-3 Fleet Replacement Squadron (FRS) for both the Atlantic and Pacific Fleets until a separate Atlantic Fleet FRS, VS-27, was established in the 1980s. The first operational cruise of the S-3A took place in 1975 with the VS-21 "Fighting Redtails" aboard USS John F. Kennedy.[10][self-published source]

Initial operations of the Viking were somewhat troubled in the carrier environment, its sophisticated mission systems were largely dependent on the mission computer, which would often "dump" during the stress of a catapult-assisted take-off, requiring the crew to restart it and reload the software.[5] The U.S. Navy had also purchased an insufficient number of spare parts, which negatively impacted the aircraft's mission readiness. Performance improved considerably once an ample supply of spares was provisioned, allowing the S-3 to become a valuable ASW asset as well as a good surface-surveillance platform as well.[5]

Starting in 1987, the majority of S-3As were progressively upgraded to the improved S-3B standard; this involved the addition of several new sensors, avionics, and weapons systems, which included the capability to launch the AGM-84 Harpoon anti-ship missile.[12][5] The S-3B could also be fitted with "buddy stores", external fuel tanks that allowed the Viking to refuel other aircraft. During July 1988, VS-30 became the first fleet squadron to receive the enhanced capability Harpoon/ISAR equipped S-3B, based at NAS Cecil Field in Jacksonville, Florida.

Additional, often more specialised variants, were also produced. 16 S-3As were converted to ES-3A Shadows for carrier-based electronic intelligence (ELINT) duties. Six aircraft, designated US-3A, were converted for a specialized utility and limited cargo Carrier onboard delivery (COD) requirement.[12] This model played a key role in US military efforts to relieve the Iran hostage crisis of 1979–1981.[5] Plans were also made to develop the KS-3A carrier-based tanker aircraft, but this program was ultimately cancelled after the conversion of just one early development S-3A.[13]

As a consequence of the collapse of the Soviet Union and the breakup of the Warsaw Pact in the early 1990s, the Soviet-Russian submarine threat was perceived as much reduced, and the Vikings had the majority of their antisubmarine warfare equipment removed. The aircraft's mission subsequently changed to sea surface search, sea and ground attack, over-the-horizon targeting, and aircraft refueling.[3][12] As a result, the S-3B after 1997 was typically crewed by a single pilot along with a copilot [NFO]; the additional seats remained in place in the S-3B and could be used by additional crew members for certain missions. To reflect these new missions, the Viking squadrons were redesignated from "Air Antisubmarine Warfare Squadrons" to "Sea Control Squadrons".[5]

 
VS-32 S-3A: During the Cold War, the S-3's main task was anti-submarine warfare

Prior to the aircraft's retirement from front-line fleet use aboard US aircraft carriers, a number of upgrade programs were implemented. These include the Carrier Airborne Inertial Navigation System II (CAINS II) upgrade, which replaced older inertial navigation hardware with ring laser gyroscopes with a Honeywell EGI (Enhanced GPS Inertial Navigation System) and added digital electronic flight instruments (EFI). The Maverick Plus System (MPS) added the capability to employ the AGM-65E laser-guided or AGM-65F infrared-guided air-to-surface missile, and the AGM-84H/K Stand-off Land Attack Missile Expanded Response (SLAM/ER). The SLAM/ER is a GPS/inertial/infrared guided cruise missile derived from the AGM-84 Harpoon that can be controlled by the aircrew in the terminal phase of flight if an AWW-13 data link pod is carried by the aircraft.[3]

The S-3B saw extensive service during the 1991 Gulf War, performing attack, tanker, and ELINT duties, and launching ADM-141 TALD decoys. One such aircraft, launched from the aircraft carrier USS Theodore Roosevelt (CVN-71), was responsible for the destruction of an Iraqi Silkworm anti-ship missile site, having fired AGM-84 SLAM missiles at it.[14] It was commonly deployed to hunt for Scud missile launcher. The Vikings also identified and targeted numerous Iraqi naval vessels, and even destroyed anti-aircraft gun emplacements and coastal radars.[14][5] The Gulf War was the first event in which the type had been employed overland in offensive air strike capacity.[citation needed]

The Viking also participated in the Yugoslav wars in the 1990s, and in Operation Enduring Freedom in the 2000s. For the latter, the opening phase of the War in Afghanistan in October 2001, many Vikings were deployed as tankers to continuously undertake refueling sorties to support various fighters stationed aboard U.S. carriers, giving them the necessary endurance to fly to and from the conflict zone.[14][5]

Electronic surveillance edit

The first ES-3A was delivered during 1991 and entered front-line service after two years of testing. The U.S. Navy established two squadrons, each equipped with eight ES-3As, stationed in both the Atlantic and Pacific Fleets to provide detachments of typically two aircraft, ten officers, and 55 enlisted aircrew, maintenance and support personnel (which comprised/supported four complete aircrews) to deploying carrier air wings. The Pacific Fleet squadron, Fleet Air Reconnaissance Squadron FIVE (VQ-5), the "Sea Shadows," was originally based at the former NAS Agana, Guam but later relocated to NAS North Island in San Diego, California, with the Pacific Fleet S-3 Viking squadrons when NAS Agana closed in 1995 as a result of a 1993 Base Realignment and Closure (BRAC) decision. The Atlantic Fleet squadron, the VQ-6 "Black Ravens," were originally based with all Atlantic Fleet S-3 Vikings at the former NAS Cecil Field in Jacksonville, Florida, but later moved to NAS Jacksonville, approximately 10 miles (16 km) to the east, when NAS Cecil Field was closed in 1999 as a result of the same 1993 BRAC decision that closed NAS Agana.[citation needed]

 
After the KA-6D retirement the S-3B became the main aerial refueling aircraft

The ES-3A operated primarily with carrier battle groups, providing organic 'Indications and Warning' support to the group and joint theater commanders. In addition to their warning and reconnaissance roles, and their extraordinarily stable handling characteristics and range, Shadows were a preferred recovery tanker (aircraft that provide refueling for returning aircraft). They were also deployed to active combat zones, seeing use over Yugoslavia to identify targets, as well as to enforce the no-fly zone over Iraq.[14] The Shadows reportedly averaged over 100 flight hours per month while deployed. Excessive utilization caused earlier than expected equipment replacement when Naval aviation funds were limited, making them an easy target for budget-driven decision makers. The type was also deemed by some officials to be too costly to continue operating.[5] In 1999, both ES-3A squadrons and all 16 aircraft were decommissioned and the ES-3A inventory placed in Aerospace Maintenance and Regeneration Group (AMARG) storage at Davis-Monthan AFB, Arizona.[citation needed]

Iraq War edit

The S-3 was an active participant in Operation Iraqi Freedom, the US invasion of Iraq; it largely performed intelligence and reconnaissance missions in support of other coalition assets.[5] On one occasion, in March 2003 a single S-3B Viking from Sea Control Squadron 38 (The "Red Griffins"), piloted by Richard McGrath Jr., from the aircraft carrier USS Constellation (CV-64) successfully executed a time-sensitive strike, firing a laser-guided Maverick missile that neutralized a significant Iraqi naval and leadership target in the port city of Basra, Iraq.[14] This was the first time an S-3 launched a laser-guided Maverick missile in combat.[5] As the conflict progressed, S-3s were regularly used as surveillance aircraft, often to identify improvised explosive devices (IEDs) and the insurgents who planted them.[5]

 
S-3B Viking "Navy One" on USS Abraham Lincoln, May 2003

On 1 May 2003, US President George W. Bush flew in the co-pilot seat of a VS-35 Viking from NAS North Island, California, to the aircraft carrier USS Abraham Lincoln off the California coast; while the carrier was well within range of helicopters, it is believed that the S-3 was used as a means of setting a desired tone.[14] Aboard the carrier, he delivered his "Mission Accomplished" speech announcing the end of major combat in the 2003 invasion of Iraq.[14] During the flight, the aircraft used the presidential callsign of "Navy One". The aircraft that President Bush flew in was retired shortly thereafter and on 15 July 2003 was accepted as an exhibit at the National Museum of Naval Aviation at NAS Pensacola, Florida.

Between July and December 2008, the VS-22 Checkmates, the last sea control squadron, operated a detachment of four S-3Bs from the Al Asad Airbase in Al Anbar Province, 180 miles (290 km) west of Baghdad. The planes were fitted with LANTIRN pods and they performed non-traditional intelligence, surveillance, and reconnaissance.[14] After more than 350 missions, the Checkmates returned to NAS Jacksonville, Florida, on 15 December 2008. The squadron was disestablished on 29 January 2009.[15]

Final years and retirement edit

 
VX-30's S-3B, callsign "Bloodhound 700", in 2010.
 
S-3B N601NA was operated by NASA from 2009 to 2021.

A proposed airframe known as the Common Support Aircraft was advanced as a successor to the S-3, E-2, and C-2, but this initiative failed to materialize. In 1998, the U.S. Navy awarded a $40 million contract for Lockheed Martin to perform a full-scale Fatigue testing of the existing S-3s; these tests, which commenced in June 2001, were aimed at extending the viable service life of each remaining aircraft, which had originally been certified for a structural life of 13,000 flight-hours. It was hoped that this could be extended to as much as 17,750 hours.[16]

The final carrier-based S-3B squadron, VS-22, was decommissioned at NAS Jacksonville on 29 January 2009. Sea Control Wing Atlantic was decommissioned the following day, along with the last S-3s in frontline fleet service.[17][5]

In June 2010, the first of three S-3s to patrol the Pacific Missile Test Center's range areas off of California was reactivated and delivered. The jet aircraft's higher speed, ten-hour endurance, modern radar, and a LANTIRN targeting pod allowed it to quickly confirm the test range being clear of wayward ships and aircraft before tests commence.[18] These S-3Bs are flown by Air Test and Evaluation Squadron Thirty (VX-30) based out of NAS Point Mugu, California.[19][20] By late 2015, the U.S. Navy were operating a total of three Vikings in support roles. One was relocated to The Boneyard in November 2015, while the final two were retired, one being stored and the other transferred to NASA, on 11 January 2016, officially retiring the S-3 from Navy service.[21][22]

During 2004, NASA acquired four of the withdrawn S-3Bs for use at its Glenn Research Center.[12] In 2009, one of these aircraft (USN BuNo 160607) was given the civil registration N601NA, it was involved in numerous tests conducted by the agency. For over a decade, this aircraft was flying almost every day in support for various research programs;[12] one such initiative was the definition of new Federal Aviation Administration communication standards for unmanned aerial vehicles operating in US airspace.[23] However, a lack of spare parts and increasing difficulty supporting the type meant their use could not continue in the long term. The last of the NASA's S-3Bs, which were the final working members of the type in existence with any operator at that point, were retired on 13 July 2021.[24][12]

Naval analysts have suggested that the U.S. Navy return to service an unspecified quantity of the stored S-3s in order to fill gaps that were left in the carrier air wing when it was retired. This move was promoted as a response to the realization that the Chinese navy is producing increasingly capable weapons that can threaten carriers beyond the range their aircraft can strike them. Against the DF-21D anti-ship ballistic missile, carrier-based F/A-18 Super Hornets and F-35C Lightning IIs have about half the unrefueled strike range, so bringing the S-3 back to aerial tanking duties would extend their range against it, as well as free up Super Hornets forced into tanking. Against submarines armed with anti-ship cruise missiles like the Klub and YJ-18, the S-3 would restore area coverage for ASW duties. Bringing the S-3 out of retirement could at least be a stop-gap measure to increase the survivability and capabilities of aircraft carriers until new aircraft can be developed for such purposes.[25]

Potential revival and proposals edit

In October 2013, the Republic of Korea Navy expressed its interest in acquiring up to 18 ex-USN S-3s to augment their fleet of 16 Lockheed P-3 Orion aircraft.[26] In August 2015, a military program review group approved a proposal to incorporate 12 mothballed S-3s to perform ASW duties; the Viking plan was sent onto the Defense Acquisition Program Administration for further assessment before final approval decision by the national defense system committee. Although the planes are relatively old, being in storage has supposedly kept them serviceable, and using them is an affordable means of fulfilling short-range airborne ASW capabilities that were vacated by the retirement of the S-2 Tracker.[27] Refurbished S-3s could be returned to use by 2019.[21] In 2017, the Republic of Korea Navy canceled plans to purchase refurbished and upgraded Lockheed S-3 Viking aircraft for maritime patrol and anti-submarine duties, leaving offers by Airbus, Boeing, Lockheed Martin, and Saab on the table.[28][29]

During April 2014, Lockheed Martin announced that they would offer refurbished and remanufactured S-3s, dubbed the C-3, as a replacement for the Northrop Grumman C-2A Greyhound for carrier onboard delivery. The requirement for 35 aircraft would be met from the 91 S-3s currently in storage.[30] In February 2015, the Navy announced that the Bell Boeing V-22 Osprey had been selected to replace the C-2 for the COD mission.[31][32]

Variants edit

 
US-3A of VRC-50 in 1987
 
ES-3As of VQ-5
 
S-3B with D-704 buddy store
 
ES-3A Shadow of VQ-6
S-3A
First production version, 187 built.[33][34]
S-3B
Upgraded avionics, AN/APS-137 inverse synthetic aperture radar, Joint Tactical Information Distribution System, AGM-84 Harpoon launch capability, first flight 13 September 1984, 119 converted from S-3As.
ES-3A Shadow
Designed as a carrier-based, subsonic, all-weather, long-range, electronic reconnaissance (ELINT) aircraft. 16 aircraft were modified to replace the EA-3B Skywarrior, entering fleet service in 1993. The ES-3A carried an extensive suite of electronic sensors and communications gear, replacing the S-3's submarine detection, armament, and maritime surveillance equipment with avionics racks accommodating the ES-3A's sensors. These modifications had minor impact on airspeed, reducing its top rated speed from 450 to 405 knots (833 to 750 km/h) but had no noticeable impact on the aircraft's range and actually increased its rated loiter time. Because these aircraft were standoff indications and warnings platforms and were never intended to be part of an ingress strike package, this new speed limitation was considered insignificant.[citation needed]
KS-3A
Proposed dedicated air tanker with fuel capacity of 4,382 US gal (16,600 L), one converted from YS-3A, later converted to US-3A.[13]
KS-3B
Proposed air tanker based on S-3B and utilizing the buddy refueling system, not built.
US-3A
S-3A modified for carrier onboard delivery, capacity for six passengers or 4,680 pounds (2,120 kg) of cargo, retired in 1998.
Aladdin Viking
Conversion of six aircraft for overland surveillance and Elint missions. May have dropped ground sensors in the Bosnian War.
Beartrap Viking
S-3Bs fitted with still-classified modifications.
Calypso Viking
Proposed anti-smuggling variant, not built.
Gray Wolf Viking
One aircraft fitted with AN/APG-76 radar in a modified cargo pod under the wing. Also dubbed SeaSTARS in reference to E-8 Joint STARS.
Orca Viking
Avionics testbed.
Outlaw Viking
One S-3B fitted with Over-the-horizon Airborne Sensor Information System (OASIS III), returned to regular S-3B in 1998. This particular Viking is now on display at the USS Midway Museum, located on the decommissioned USS Midway (CV-41).[citation needed]
 
Main Variants of the S-3 Viking.
NASA Viking
One aircraft was extensively rebuilt into a state-of-the-art NASA research aircraft. The Navy's Fleet Readiness Center Southeast and a Boeing facility in Florida modified it, adding commercial satellite communications, global positioning navigation, and weather radar systems. They also installed research equipment racks in what was once the plane's bomb bay. NASA's S-3B Viking was equipped to conduct science and aeronautics missions, such as environmental monitoring, satellite communications testing, and aviation safety research.[35]

Operators edit

  United States

Aircraft on display edit

 
S-3 on display at the Air Zoo
YS-3A
S-3A
ES-3A
  • 159404 – Celebrity Row, Davis-Monthan AFB (North Side), Tucson, Arizona.[57]
S-3B
 
S-3B on display at the Patuxent River Naval Air Museum

Specifications (S-3A) edit

 

Data from Standard Aircraft Characteristics[68]

General characteristics

  • Crew: 4 (pilot, co-pilot, TACCO, sensor operator)
  • Length: 53 ft 4 in (16.26 m)
  • Wingspan: 68 ft 8 in (20.93 m)
  • Width: 29 ft 6 in (8.99 m) folded
  • Height: 22 ft 9 in (6.93 m) * Height tail folded: 15 ft 3 in (5 m)
  • Wing area: 598 sq ft (55.6 m2)
  • Aspect ratio: 7.73
  • Airfoil: root: NACA 0016.3-1.03 32.7/100 mod; tip: NACA 0012-1.10 40/1.00 mod[69]
  • Empty weight: 26,581 lb (12,057 kg)
  • Gross weight: 38,192 lb (17,324 kg)
  • Max takeoff weight: 52,539 lb (23,831 kg)
  • Fuel capacity: * Internal fuel capacity: 1,933 US gal (1,610 imp gal; 7,320 L) of JP-5 fuel
  • External fuel capacity: 2 × 300 US gal (250 imp gal; 1,100 L) drop tanks
  • Powerplant: 2 × General Electric TF34-GE-2 turbofan engines, 9,275 lbf (41.26 kN) thrust each

Performance

  • Maximum speed: 429 kn (494 mph, 795 km/h) at sea level
  • Maximum speed: Mach 0.79
  • Cruise speed: 350 kn (400 mph, 650 km/h)
  • Stall speed: 97 kn (112 mph, 180 km/h)
  • Range: 2,765 nmi (3,182 mi, 5,121 km)
  • Combat range: 460.5 nmi (529.9 mi, 852.8 km) [70]
  • Ferry range: 3,368 nmi (3,876 mi, 6,238 km)
  • Service ceiling: 40,900 ft (12,500 m)
  • Rate of climb: 5,120 ft/min (26.0 m/s)
  • Wing loading: 68.5 lb/sq ft (334 kg/m2)
  • Thrust/weight: 0.353

Armament

Avionics

  • AN/APS-116 sea search radar, maximum range 150 nmi (170 mi; 280 km)
  • OR-89 forward looking infrared (FLIR) camera with 3× zoom
  • AN/ARS-2 sonobuoy receiver with 13 blade antennas on the airframe for precise buoy location (sonobuoy reference system)
  • AN/ASQ-81 magnetic anomaly detector (MAD)
  • AN/ALR-47 electronic support measures (ESM) emitter-location system, with boxy receiver pods fitted to the wingtips, to locate adversary communications and radar transmitters
  • AN/ASN-92 inertial navigation system (INS) with Doppler radar navigation and TACAN
  • Up to 60 sonobuoys (59 tactical, 1 search and rescue)

See also edit

Aircraft of comparable role, configuration, and era

Related lists

References edit

Citations edit

  1. ^ Francillon 1982, pp. 455–456.
  2. ^ a b Godfrey 1974, p. 6.
  3. ^ a b c Goebel, Greg. "The Lockheed S-3 Viking." Air Vectors, 1 May 2005. Retrieved: 21 April 2010.
  4. ^ Francillon 1982, p. 457.
  5. ^ a b c d e f g h i j k l m n o p q Burgess, Rick (1 November 2009). "S-3 Viking: from sub hunter to desert warrior". Naval Aviation News.
  6. ^ Francillon 1987, p. 467.
  7. ^ Taylor, John W. R.: Jane's All The World's Aircraft, 1977–78. Jane's Yearbooks, London 1977, p. 329.
  8. ^ a b Elward 1998, pp. 54–55.
  9. ^ Elward 1998, p. 69.
  10. ^ a b c d Petrescu, Dr. Relly Victoria; Petrescu, Dr. Florian Ion (23 December 2012). Lockheed Martin. Norderstedt, Germany: Books on Demand GmbH. p. 101. ISBN 978-1481826884.
  11. ^ Taylor 1976, pp. 315–316.
  12. ^ a b c d e f g Donald, David (14 July 2021). "NASA Retires Last Flying S-3 Viking". AINonline.
  13. ^ a b Air International July 1986, pp. 44–45.
  14. ^ a b c d e f g h Roblin, Sebastien (19 November 2020). "Submarine Killer: Why Did the U.S. Navy Retire Its Vaunted S-3 Viking Planes?". nationalinterest.org.
  15. ^ "The Final Boat: End of the USN's S-3B Vikings". Defense Industry Daily. 2 February 2009. Retrieved 3 February 2009.
  16. ^ "Lockheed Martin Aeronautics Begins S-3 Viking Full Scale Fatigue Testing". Lockheed Martins. 28 June 2001.
  17. ^ . Lockheed Martin. 30 January 2009. Archived from the original on 2 June 2009. Retrieved 21 April 2010. . Archived from the original on 2 June 2009. Retrieved 5 February 2009.
  18. ^ "S-3B Viking re-enters USN service in test range surveillance role". IHS Jane's. 3 June 2010. Retrieved 8 June 2010.
  19. ^ . Naval Air Systems Command (United States Navy). 3 June 2011. Archived from the original on 26 September 2012. Retrieved 23 April 2013.
  20. ^ "S-3B Viking re-enters USN service in test range surveillance role". Janes.com. Retrieved 13 March 2015.
  21. ^ a b "US Navy retires its last S-3B Vikings". Flightglobal.com. 14 January 2016.
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Bibliography edit

  • Elward, Brad E."Lockheed S-3 Viking and ES-3A Shadow." World Air Power Journal, Volume 34, Autumn–Fall 1998. ISBN 1-86184-019-5, pp. 48–97.
  • Francillon, René J. Lockheed Aircraft since 1913. London: Putnam, 1982. ISBN 0-370-30329-6.
  • Francillon, René J. Lockheed Aircraft Since 1913. Naval Institute Press, 1987. ISBN 9780870218972.
  • Godfrey, David W. H. "Fixer, Finder, Striker: The S-3A Viking." Air International, Volume 7, Issue 1, July 1974, pp. 5–13.
  • Michell, Simon. Jane's Civil and Military Upgrades 1994–95. Coulsdon, UK: Jane's Information Group, 1994. ISBN 0-7106-1208-7.
  • Taylor, John W. R. Jane's All The World's Aircraft 1976–77. London: Jane's Yearbooks, 1976. ISBN 0-354-00538-3.
  • Winchester, Jim, ed. Military Aircraft of the Cold War (The Aviation Factfile). London: Grange Books plc, 2006. ISBN 1-84013-929-3.
  • "Viking Variations". Air International, Volume 31, Number 1, July 1986. pp. 41–45.

External links edit

 
Wikimedia Commons has media related to Lockheed S-3 Viking.
  • S-3B Viking fact file 28 September 2008 at the Wayback Machine and S-3 Viking history page on Navy.mil 20 June 2009 at the Wayback Machine
  • S-3 Viking: War Hoover – Naval Aviation News (July–August 2004)

March 17, 2024
lockheed, viking, four, crew, twin, engine, turbofan, powered, aircraft, designed, produced, american, aerospace, manufacturer, lockheed, corporation, because, characteristic, sound, nicknamed, hoover, after, vacuum, cleaner, brand, vikingan, viking, from, squ. The Lockheed S 3 Viking is a four crew twin engine turbofan powered jet aircraft designed and produced by the American aerospace manufacturer Lockheed Corporation Because of its characteristic sound it was nicknamed the War Hoover after the vacuum cleaner brand S 3 VikingAn S 3A Viking from ASW squadron VS 37 SawbucksRole Carrier based anti submarine aircraftNational origin United StatesManufacturer Lockheed CorporationFirst flight 21 January 1972Introduction 20 February 1974Retired 2016 Navy 2021 NASA Primary users United States NavyNASAProduced 1974 1978Number built 188The S 3 was developed in response to the VSX program conducted by the U S Navy USN to procure a successor anti submarine warfare ASW aircraft to the Grumman S 2 Tracker It was designed with assistance from Ling Temco Vought LTV to be a carrier based subsonic all weather long range multi mission aircraft On 21 January 1972 the prototype YS 3A performed the type s maiden flight Upon entering regular service during February 1974 it proved to be a reliable workhorse In the ASW role the S 3 carried automated weapons and in flight refueling gear Further variants such as the ES 3A Shadow carrier based electronic intelligence ELINT platform and the US 3A carrier based utility and cargo transport arrived during the 1980s and 1990s In the late 1990s the S 3B s mission focus shifted to surface warfare and aerial refueling a carrier battle group It saw combat during the Gulf War of the early 1990s the Yugoslav Wars of the mid to late 1990s and the War in Afghanistan during the 2000s The S 3 was removed from front line fleet service aboard aircraft carriers in January 2009 its missions having been taken over by the P 3C Orion P 8 Poseidon SH 60 Seahawk and F A 18E F Super Hornet For more than a decade after that some S 3s were flown by Air Test and Evaluation Squadron Thirty VX 30 at Naval Base Ventura County NAS Point Mugu California for range clearance and surveillance operations at the NAVAIR Point Mugu Range These final examples in U S Navy service were retired in early 2016 The last operational S 3 was used by the National Aeronautics and Space Administration NASA at its Glenn Research Center until NASA retired it in mid 2021 Most retired S 3s were placed into storage while options for their future were investigated During the 2010s Lockheed Martin proposed to refurbish them for carrier onboard delivery The Republic of Korea Navy also had plans to operate revived S 3s for ASW these plans were cancelled in 2017 Contents 1 Development 2 Design 3 Operational history 3 1 Electronic surveillance 3 2 Iraq War 3 3 Final years and retirement 3 4 Potential revival and proposals 4 Variants 5 Operators 6 Aircraft on display 7 Specifications S 3A 8 See also 9 References 9 1 Citations 9 2 Bibliography 10 External linksDevelopment edit nbsp YS 3A prototype nbsp S 3 escape system testingIn the mid 1960s the United States Navy USN formulated the VSX Heavier than air Anti submarine Experimental requirement which sought a dedicated anti submarine aircraft capable of flying off of its aircraft carriers as a replacement for its existing inventory of piston engined Grumman S 2 Trackers The service issued a request for proposals to industry During August 1968 a team led by Lockheed as well as a rival team comprising Convair and Grumman were requested to further develop their proposals to meet this requirement 1 At this stage Lockheed recognised that it had little experience in designing carrier based aircraft thus the company reached out to the industrial conglomerate Ling Temco Vought LTV which joined the team LTV assumed responsibility for the design of various elements of the airframe such as the folding wings and tail the engine nacelles and the landing gear some of which had been derived from the earlier LTV A 7 Corsair II and Vought F 8 Crusader Sperry Univac Federal Systems was assigned the task of developing the aircraft s onboard computers which integrated input from sensors and sonobuoys 2 3 On 4 August 1969 Lockheed s design was selected as the winner of the VSX contest an order for eight prototypes designated YS 3A was promptly received by the company 4 5 On 21 January 1972 the first prototype performed its maiden flight in the hands of military test pilot John Christiansen 6 2 Flight testing proceeded quickly with no major issues two years later the S 3 entered operational service with the U S Navy During the type s production run which ran from 1974 to 1978 a total of 186 S 3As were constructed 5 The majority of the surviving S 3As were later upgraded to the improved S 3B variant while 16 aircraft were also converted into ES 3A Shadow electronic intelligence ELINT collection aircraft Design editThe Lockheed S 3 Viking is a conventional monoplane with a cantilever shoulder wing 7 very slightly swept with a leading edge angle of 15 and an almost straight trailing edge Its twin GE TF 34 high bypass turbofan engines mounted in nacelles under the wings provide excellent fuel efficiency providing the Viking with the required long range and endurance 8 while also maintaining relatively docile engine out characteristics 9 nbsp S 3A with extended MAD sensorThe aircraft can seat four crew members three officers and one enlisted with pilot and copilot tactical coordinator COTAC in the front of the cockpit and the tactical coordinator TACCO and sensor operator SENSO in the back 5 Entry is via a hatch ladder folding down out of the lower starboard side of the fuselage behind the cockpit in between the rear and front seats on the starboard side 8 When the aircraft s anti submarine warfare ASW role ended in the late 1990s the enlisted SENSOs were removed from the crew In tanker crew configuration the S 3B typically flew with a pilot and co pilot COTAC 10 self published source The wing is fitted with leading edge and Fowler flaps Spoilers are fitted to both the upper and the lower surfaces of the wings All control surfaces are actuated by dual hydraulically boosted irreversible systems In the event of dual hydraulic failures an Emergency Flight Control System EFCS permits manual control with greatly increased stick forces and reduced control authority 11 Unlike many tactical jets which required ground service equipment the S 3 was equipped with an auxiliary power unit APU and capable of unassisted starts The aircraft s original APU could provide only minimal electric power and pressurized air for both aircraft cooling and for the engines pneumatic starters A newer more powerful APU could provide full electrical service to the aircraft The APU itself was started from a hydraulic accumulator by pulling a handle in the cockpit The APU accumulator was fed from the primary hydraulic system but could also be pumped up manually with much effort from the cockpit 10 self published source All crew members sit on forward facing upward firing Douglas Escapac zero zero ejection seats In group eject mode initiating ejection from either of the front seat ejects the entire crew in sequence with the back seats ejecting 0 5 seconds before the front in order to provide safe separation this was to prevent the pilots who were more aware of what was happening outside the aircraft from ejecting without the rest of the crew or being forced to delay ejection to order the crew to eject in an emergency ejection from either rear seat would not eject the pilots who had to initiate their own ejections to prevent loss of the aircraft if a rear crewmember ejected prematurely If a pilot ejected prematurely the plane was lost anyway and automatic ejection prevented the crew from crashing with a pilot less aircraft before they were aware of what had happened The rear seats are capable of self ejection and the ejection sequence includes a pyrotechnic charge that stows the rear keyboard trays out of the occupants way immediately before ejection Safe ejection requires the seats to be weighted in pairs and when flying with a single crewman in the back the unoccupied seat is fitted with ballast 10 self published source At the time it entered the fleet the S 3 introduced an unprecedented level of systems integration Previous ASW aircraft like the Lockheed P 3 Orion and S 3 s predecessor the Grumman S 2 Tracker featured separate instrumentation and controls for each sensor system Sensor operators often monitored paper traces using mechanical calipers to make precise measurements and annotating data by writing on the scrolling paper Beginning with the S 3 all sensor systems were integrated through a single General Purpose Digital Computer GPDC Each crew station had its own display the co pilot COTAC TACCO and SENSO displays were Multi Purpose Displays MPD capable of displaying data from any of a number of systems This new level of integration allowed the crew to consult with each other by examining the same data at multiple stations simultaneously to manage workload by assigning responsibility for a given sensor from one station to another and to easily combine clues from each sensor to classify faint targets As a consequence of this integration the four crew S 3 was considered roughly equivalent in terms of capability to the much larger P 3 operated by a crew of 12 citation needed The aircraft has two underwing hardpoints that can be used to carry fuel tanks general purpose and cluster bombs missiles rockets and storage pods 5 It also has four internal bomb bay stations that can be used to carry general purpose bombs aerial torpedoes and special stores B57 and B61 nuclear weapons Fifty nine sonobuoys are carried as well as a dedicated Search and Rescue SAR chute The S 3 is fitted with the ALE 39 countermeasure system and can carry up to 90 rounds of chaff flares and expendable jammers or a combination of all in three dispensers A retractable magnetic anomaly detector MAD Boom is fitted in the tail 5 In the late 1990s the S 3B s role was changed from anti submarine warfare ASW to anti surface warfare ASuW As a consequence of this role change the MAD Boom was removed along with several hundred pounds of submarine detection electronics As there was no remaining sonobuoy processing capability most of the sonobuoy chutes were faired over with a blanking plate citation needed Operational history edit nbsp S 3A replaced the outdated S 2 Tracker in 1975On 20 February 1974 the S 3A officially became operational with the Air Antisubmarine Squadron FORTY ONE VS 41 the Shamrocks at NAS North Island California which served as the initial S 3 Fleet Replacement Squadron FRS for both the Atlantic and Pacific Fleets until a separate Atlantic Fleet FRS VS 27 was established in the 1980s The first operational cruise of the S 3A took place in 1975 with the VS 21 Fighting Redtails aboard USS John F Kennedy 10 self published source Initial operations of the Viking were somewhat troubled in the carrier environment its sophisticated mission systems were largely dependent on the mission computer which would often dump during the stress of a catapult assisted take off requiring the crew to restart it and reload the software 5 The U S Navy had also purchased an insufficient number of spare parts which negatively impacted the aircraft s mission readiness Performance improved considerably once an ample supply of spares was provisioned allowing the S 3 to become a valuable ASW asset as well as a good surface surveillance platform as well 5 Starting in 1987 the majority of S 3As were progressively upgraded to the improved S 3B standard this involved the addition of several new sensors avionics and weapons systems which included the capability to launch the AGM 84 Harpoon anti ship missile 12 5 The S 3B could also be fitted with buddy stores external fuel tanks that allowed the Viking to refuel other aircraft During July 1988 VS 30 became the first fleet squadron to receive the enhanced capability Harpoon ISAR equipped S 3B based at NAS Cecil Field in Jacksonville Florida Additional often more specialised variants were also produced 16 S 3As were converted to ES 3A Shadows for carrier based electronic intelligence ELINT duties Six aircraft designated US 3A were converted for a specialized utility and limited cargo Carrier onboard delivery COD requirement 12 This model played a key role in US military efforts to relieve the Iran hostage crisis of 1979 1981 5 Plans were also made to develop the KS 3A carrier based tanker aircraft but this program was ultimately cancelled after the conversion of just one early development S 3A 13 As a consequence of the collapse of the Soviet Union and the breakup of the Warsaw Pact in the early 1990s the Soviet Russian submarine threat was perceived as much reduced and the Vikings had the majority of their antisubmarine warfare equipment removed The aircraft s mission subsequently changed to sea surface search sea and ground attack over the horizon targeting and aircraft refueling 3 12 As a result the S 3B after 1997 was typically crewed by a single pilot along with a copilot NFO the additional seats remained in place in the S 3B and could be used by additional crew members for certain missions To reflect these new missions the Viking squadrons were redesignated from Air Antisubmarine Warfare Squadrons to Sea Control Squadrons 5 nbsp VS 32 S 3A During the Cold War the S 3 s main task was anti submarine warfarePrior to the aircraft s retirement from front line fleet use aboard US aircraft carriers a number of upgrade programs were implemented These include the Carrier Airborne Inertial Navigation System II CAINS II upgrade which replaced older inertial navigation hardware with ring laser gyroscopes with a Honeywell EGI Enhanced GPS Inertial Navigation System and added digital electronic flight instruments EFI The Maverick Plus System MPS added the capability to employ the AGM 65E laser guided or AGM 65F infrared guided air to surface missile and the AGM 84H K Stand off Land Attack Missile Expanded Response SLAM ER The SLAM ER is a GPS inertial infrared guided cruise missile derived from the AGM 84 Harpoon that can be controlled by the aircrew in the terminal phase of flight if an AWW 13 data link pod is carried by the aircraft 3 The S 3B saw extensive service during the 1991 Gulf War performing attack tanker and ELINT duties and launching ADM 141 TALD decoys One such aircraft launched from the aircraft carrier USS Theodore Roosevelt CVN 71 was responsible for the destruction of an Iraqi Silkworm anti ship missile site having fired AGM 84 SLAM missiles at it 14 It was commonly deployed to hunt for Scud missile launcher The Vikings also identified and targeted numerous Iraqi naval vessels and even destroyed anti aircraft gun emplacements and coastal radars 14 5 The Gulf War was the first event in which the type had been employed overland in offensive air strike capacity citation needed The Viking also participated in the Yugoslav wars in the 1990s and in Operation Enduring Freedom in the 2000s For the latter the opening phase of the War in Afghanistan in October 2001 many Vikings were deployed as tankers to continuously undertake refueling sorties to support various fighters stationed aboard U S carriers giving them the necessary endurance to fly to and from the conflict zone 14 5 Electronic surveillance edit The first ES 3A was delivered during 1991 and entered front line service after two years of testing The U S Navy established two squadrons each equipped with eight ES 3As stationed in both the Atlantic and Pacific Fleets to provide detachments of typically two aircraft ten officers and 55 enlisted aircrew maintenance and support personnel which comprised supported four complete aircrews to deploying carrier air wings The Pacific Fleet squadron Fleet Air Reconnaissance Squadron FIVE VQ 5 the Sea Shadows was originally based at the former NAS Agana Guam but later relocated to NAS North Island in San Diego California with the Pacific Fleet S 3 Viking squadrons when NAS Agana closed in 1995 as a result of a 1993 Base Realignment and Closure BRAC decision The Atlantic Fleet squadron the VQ 6 Black Ravens were originally based with all Atlantic Fleet S 3 Vikings at the former NAS Cecil Field in Jacksonville Florida but later moved to NAS Jacksonville approximately 10 miles 16 km to the east when NAS Cecil Field was closed in 1999 as a result of the same 1993 BRAC decision that closed NAS Agana citation needed nbsp After the KA 6D retirement the S 3B became the main aerial refueling aircraftThe ES 3A operated primarily with carrier battle groups providing organic Indications and Warning support to the group and joint theater commanders In addition to their warning and reconnaissance roles and their extraordinarily stable handling characteristics and range Shadows were a preferred recovery tanker aircraft that provide refueling for returning aircraft They were also deployed to active combat zones seeing use over Yugoslavia to identify targets as well as to enforce the no fly zone over Iraq 14 The Shadows reportedly averaged over 100 flight hours per month while deployed Excessive utilization caused earlier than expected equipment replacement when Naval aviation funds were limited making them an easy target for budget driven decision makers The type was also deemed by some officials to be too costly to continue operating 5 In 1999 both ES 3A squadrons and all 16 aircraft were decommissioned and the ES 3A inventory placed in Aerospace Maintenance and Regeneration Group AMARG storage at Davis Monthan AFB Arizona citation needed Iraq War edit The S 3 was an active participant in Operation Iraqi Freedom the US invasion of Iraq it largely performed intelligence and reconnaissance missions in support of other coalition assets 5 On one occasion in March 2003 a single S 3B Viking from Sea Control Squadron 38 The Red Griffins piloted by Richard McGrath Jr from the aircraft carrier USS Constellation CV 64 successfully executed a time sensitive strike firing a laser guided Maverick missile that neutralized a significant Iraqi naval and leadership target in the port city of Basra Iraq 14 This was the first time an S 3 launched a laser guided Maverick missile in combat 5 As the conflict progressed S 3s were regularly used as surveillance aircraft often to identify improvised explosive devices IEDs and the insurgents who planted them 5 nbsp S 3B Viking Navy One on USS Abraham Lincoln May 2003On 1 May 2003 US President George W Bush flew in the co pilot seat of a VS 35 Viking from NAS North Island California to the aircraft carrier USS Abraham Lincoln off the California coast while the carrier was well within range of helicopters it is believed that the S 3 was used as a means of setting a desired tone 14 Aboard the carrier he delivered his Mission Accomplished speech announcing the end of major combat in the 2003 invasion of Iraq 14 During the flight the aircraft used the presidential callsign of Navy One The aircraft that President Bush flew in was retired shortly thereafter and on 15 July 2003 was accepted as an exhibit at the National Museum of Naval Aviation at NAS Pensacola Florida Between July and December 2008 the VS 22 Checkmates the last sea control squadron operated a detachment of four S 3Bs from the Al Asad Airbase in Al Anbar Province 180 miles 290 km west of Baghdad The planes were fitted with LANTIRN pods and they performed non traditional intelligence surveillance and reconnaissance 14 After more than 350 missions the Checkmates returned to NAS Jacksonville Florida on 15 December 2008 The squadron was disestablished on 29 January 2009 15 Final years and retirement edit nbsp VX 30 s S 3B callsign Bloodhound 700 in 2010 nbsp S 3B N601NA was operated by NASA from 2009 to 2021 A proposed airframe known as the Common Support Aircraft was advanced as a successor to the S 3 E 2 and C 2 but this initiative failed to materialize In 1998 the U S Navy awarded a 40 million contract for Lockheed Martin to perform a full scale Fatigue testing of the existing S 3s these tests which commenced in June 2001 were aimed at extending the viable service life of each remaining aircraft which had originally been certified for a structural life of 13 000 flight hours It was hoped that this could be extended to as much as 17 750 hours 16 The final carrier based S 3B squadron VS 22 was decommissioned at NAS Jacksonville on 29 January 2009 Sea Control Wing Atlantic was decommissioned the following day along with the last S 3s in frontline fleet service 17 5 In June 2010 the first of three S 3s to patrol the Pacific Missile Test Center s range areas off of California was reactivated and delivered The jet aircraft s higher speed ten hour endurance modern radar and a LANTIRN targeting pod allowed it to quickly confirm the test range being clear of wayward ships and aircraft before tests commence 18 These S 3Bs are flown by Air Test and Evaluation Squadron Thirty VX 30 based out of NAS Point Mugu California 19 20 By late 2015 the U S Navy were operating a total of three Vikings in support roles One was relocated to The Boneyard in November 2015 while the final two were retired one being stored and the other transferred to NASA on 11 January 2016 officially retiring the S 3 from Navy service 21 22 During 2004 NASA acquired four of the withdrawn S 3Bs for use at its Glenn Research Center 12 In 2009 one of these aircraft USN BuNo 160607 was given the civil registration N601NA it was involved in numerous tests conducted by the agency For over a decade this aircraft was flying almost every day in support for various research programs 12 one such initiative was the definition of new Federal Aviation Administration communication standards for unmanned aerial vehicles operating in US airspace 23 However a lack of spare parts and increasing difficulty supporting the type meant their use could not continue in the long term The last of the NASA s S 3Bs which were the final working members of the type in existence with any operator at that point were retired on 13 July 2021 24 12 Naval analysts have suggested that the U S Navy return to service an unspecified quantity of the stored S 3s in order to fill gaps that were left in the carrier air wing when it was retired This move was promoted as a response to the realization that the Chinese navy is producing increasingly capable weapons that can threaten carriers beyond the range their aircraft can strike them Against the DF 21D anti ship ballistic missile carrier based F A 18 Super Hornets and F 35C Lightning IIs have about half the unrefueled strike range so bringing the S 3 back to aerial tanking duties would extend their range against it as well as free up Super Hornets forced into tanking Against submarines armed with anti ship cruise missiles like the Klub and YJ 18 the S 3 would restore area coverage for ASW duties Bringing the S 3 out of retirement could at least be a stop gap measure to increase the survivability and capabilities of aircraft carriers until new aircraft can be developed for such purposes 25 Potential revival and proposals edit In October 2013 the Republic of Korea Navy expressed its interest in acquiring up to 18 ex USN S 3s to augment their fleet of 16 Lockheed P 3 Orion aircraft 26 In August 2015 a military program review group approved a proposal to incorporate 12 mothballed S 3s to perform ASW duties the Viking plan was sent onto the Defense Acquisition Program Administration for further assessment before final approval decision by the national defense system committee Although the planes are relatively old being in storage has supposedly kept them serviceable and using them is an affordable means of fulfilling short range airborne ASW capabilities that were vacated by the retirement of the S 2 Tracker 27 Refurbished S 3s could be returned to use by 2019 21 In 2017 the Republic of Korea Navy canceled plans to purchase refurbished and upgraded Lockheed S 3 Viking aircraft for maritime patrol and anti submarine duties leaving offers by Airbus Boeing Lockheed Martin and Saab on the table 28 29 During April 2014 Lockheed Martin announced that they would offer refurbished and remanufactured S 3s dubbed the C 3 as a replacement for the Northrop Grumman C 2A Greyhound for carrier onboard delivery The requirement for 35 aircraft would be met from the 91 S 3s currently in storage 30 In February 2015 the Navy announced that the Bell Boeing V 22 Osprey had been selected to replace the C 2 for the COD mission 31 32 Variants edit nbsp US 3A of VRC 50 in 1987 nbsp ES 3As of VQ 5 nbsp S 3B with D 704 buddy store nbsp ES 3A Shadow of VQ 6S 3A First production version 187 built 33 34 S 3B Upgraded avionics AN APS 137 inverse synthetic aperture radar Joint Tactical Information Distribution System AGM 84 Harpoon launch capability first flight 13 September 1984 119 converted from S 3As ES 3A Shadow Designed as a carrier based subsonic all weather long range electronic reconnaissance ELINT aircraft 16 aircraft were modified to replace the EA 3B Skywarrior entering fleet service in 1993 The ES 3A carried an extensive suite of electronic sensors and communications gear replacing the S 3 s submarine detection armament and maritime surveillance equipment with avionics racks accommodating the ES 3A s sensors These modifications had minor impact on airspeed reducing its top rated speed from 450 to 405 knots 833 to 750 km h but had no noticeable impact on the aircraft s range and actually increased its rated loiter time Because these aircraft were standoff indications and warnings platforms and were never intended to be part of an ingress strike package this new speed limitation was considered insignificant citation needed KS 3A Proposed dedicated air tanker with fuel capacity of 4 382 US gal 16 600 L one converted from YS 3A later converted to US 3A 13 KS 3B Proposed air tanker based on S 3B and utilizing the buddy refueling system not built US 3A S 3A modified for carrier onboard delivery capacity for six passengers or 4 680 pounds 2 120 kg of cargo retired in 1998 Aladdin Viking Conversion of six aircraft for overland surveillance and Elint missions May have dropped ground sensors in the Bosnian War Beartrap Viking S 3Bs fitted with still classified modifications Calypso Viking Proposed anti smuggling variant not built Gray Wolf Viking One aircraft fitted with AN APG 76 radar in a modified cargo pod under the wing Also dubbed SeaSTARS in reference to E 8 Joint STARS Orca Viking Avionics testbed Outlaw Viking One S 3B fitted with Over the horizon Airborne Sensor Information System OASIS III returned to regular S 3B in 1998 This particular Viking is now on display at the USS Midway Museum located on the decommissioned USS Midway CV 41 citation needed nbsp Main Variants of the S 3 Viking NASA Viking One aircraft was extensively rebuilt into a state of the art NASA research aircraft The Navy s Fleet Readiness Center Southeast and a Boeing facility in Florida modified it adding commercial satellite communications global positioning navigation and weather radar systems They also installed research equipment racks in what was once the plane s bomb bay NASA s S 3B Viking was equipped to conduct science and aeronautics missions such as environmental monitoring satellite communications testing and aviation safety research 35 Operators edit nbsp United StatesUnited States Navy former VS 21 Red Tails 1975 2005 36 unreliable source VS 22 Checkmates 1976 2009 37 unreliable source VS 24 Scouts 1977 2007 38 unreliable source VS 27 Seawolves Grim Watchdogs 1987 1994 39 40 unreliable source VS 28 Hukkers Gamblers 1976 1992 41 unreliable source VS 29 Dragonfires 1976 2004 42 unreliable source VS 30 Diamond Cutters 1977 2007 43 unreliable source VS 31 Topcats 1977 2008 43 unreliable source VS 32 Maulers 1976 2008 44 unreliable source VS 33 Screwbirds 1977 2006 45 unreliable source VS 35 Boomerangers Blue Wolves 1986 88 1991 2005 46 unreliable source 47 unreliable source VS 37 Sawbucks 1978 1995 48 unreliable source VS 38 Red Griffins 1978 2004 49 unreliable source VS 41 Shamrocks 1974 2006 50 unreliable source 51 VQ 5 Sea Shadows 1991 1999 52 unreliable source VQ 6 Black Ravens 1991 1999 53 unreliable source VX 1 Pioneers Unknown 54 NASA former Aircraft on display edit nbsp S 3 on display at the Air ZooYS 3A157993 NAS Jacksonville Aircraft Heritage Park NAS Jacksonville Jacksonville Florida 55 S 3A159417 Celebrity Row Davis Monthan AFB North Side Tucson Arizona 56 ES 3A159404 Celebrity Row Davis Monthan AFB North Side Tucson Arizona 57 S 3B nbsp S 3B on display at the Patuxent River Naval Air Museum159387 Navy One National Naval Aviation Museum NAS Pensacola Pensacola Florida 58 159412 NAS North Island San Diego California 59 159731 USS Yorktown CV 10 at the Patriot s Point Naval and Maritime Museum Charleston South Carolina 60 159743 Aviation History amp Technology Center Dobbins ARB formerly Atlanta NAS Atlanta Georgia 61 159755 NAS Pensacola Pensacola Florida 62 159766 USS Midway CV 41 at San Diego California 63 159770 Patuxent River Naval Air Museum Lexington Park Maryland 64 160123 Air Zoo at Kalamazoo Michigan 65 160599 USS Hornet CVS 12 at the former NAS Alameda Alameda California 66 160604 Pima Air and Space Museum adjacent to Davis Monthan AFB Tucson Arizona 67 N601NA NASA Viking San Diego Air amp Space Museum San Diego California 12 Specifications S 3A edit nbsp Data from Standard Aircraft Characteristics 68 General characteristicsCrew 4 pilot co pilot TACCO sensor operator Length 53 ft 4 in 16 26 m Wingspan 68 ft 8 in 20 93 m Width 29 ft 6 in 8 99 m folded Height 22 ft 9 in 6 93 m Height tail folded 15 ft 3 in 5 m Wing area 598 sq ft 55 6 m2 Aspect ratio 7 73 Airfoil root NACA 0016 3 1 03 32 7 100 mod tip NACA 0012 1 10 40 1 00 mod 69 Empty weight 26 581 lb 12 057 kg Gross weight 38 192 lb 17 324 kg Max takeoff weight 52 539 lb 23 831 kg Fuel capacity Internal fuel capacity 1 933 US gal 1 610 imp gal 7 320 L of JP 5 fuel External fuel capacity 2 300 US gal 250 imp gal 1 100 L drop tanks Powerplant 2 General Electric TF34 GE 2 turbofan engines 9 275 lbf 41 26 kN thrust eachPerformance Maximum speed 429 kn 494 mph 795 km h at sea level Maximum speed Mach 0 79 Cruise speed 350 kn 400 mph 650 km h Stall speed 97 kn 112 mph 180 km h Range 2 765 nmi 3 182 mi 5 121 km Combat range 460 5 nmi 529 9 mi 852 8 km 70 Ferry range 3 368 nmi 3 876 mi 6 238 km Service ceiling 40 900 ft 12 500 m Rate of climb 5 120 ft min 26 0 m s Wing loading 68 5 lb sq ft 334 kg m2 Thrust weight 0 353Armament Up to 4 900 pounds 2 200 kg on 4 internal and 2 external hardpoints including 10 500 pounds 230 kg Mark 82 bombs 2 1 000 pounds 450 kg Mark 83 bombs 2 2 000 pounds 910 kg Mark 84 bombs 6 CBU 100 cluster bombs 2 Mark 50 torpedoes 4 Mark 46 torpedoes 6 mines or depth charges 2 B57 nuclear bombs depth charges 2 AGM 65E F Maverick missiles 2 AGM 84D Harpoon missiles 1 AGM 84H K SLAM ER missile The underwing hardpoints can also be fitted with unguided rocket pods or 300 US gal 1 136 L fuel tanks Avionics AN APS 116 sea search radar maximum range 150 nmi 170 mi 280 km Upgraded on S 3B to AN APS 137 inverse synthetic aperture radar ISAR OR 89 forward looking infrared FLIR camera with 3 zoom AN ARS 2 sonobuoy receiver with 13 blade antennas on the airframe for precise buoy location sonobuoy reference system AN ASQ 81 magnetic anomaly detector MAD AN ALR 47 electronic support measures ESM emitter location system with boxy receiver pods fitted to the wingtips to locate adversary communications and radar transmitters AN ASN 92 inertial navigation system INS with Doppler radar navigation and TACAN Up to 60 sonobuoys 59 tactical 1 search and rescue See also edit nbsp Aviation portalCP 140 AuroraAircraft of comparable role configuration and era S 2 Tracker Fairey Gannet Breguet 1050 AlizeRelated lists List of Lockheed aircraft List of military aircraft of the United StatesReferences editCitations edit Francillon 1982 pp 455 456 a b Godfrey 1974 p 6 a b c Goebel Greg The Lockheed S 3 Viking Air Vectors 1 May 2005 Retrieved 21 April 2010 Francillon 1982 p 457 a b c d e f g h i j k l m n o p q Burgess Rick 1 November 2009 S 3 Viking from sub hunter to desert warrior Naval Aviation News Francillon 1987 p 467 Taylor John W R Jane s All The World s Aircraft 1977 78 Jane s Yearbooks London 1977 p 329 a b Elward 1998 pp 54 55 Elward 1998 p 69 a b c d Petrescu Dr Relly Victoria Petrescu Dr Florian Ion 23 December 2012 Lockheed Martin Norderstedt Germany Books on Demand GmbH p 101 ISBN 978 1481826884 Taylor 1976 pp 315 316 a b c d e f g Donald David 14 July 2021 NASA Retires Last Flying S 3 Viking AINonline a b Air International July 1986 pp 44 45 a b c d e f g h Roblin Sebastien 19 November 2020 Submarine Killer Why Did the U S Navy Retire Its Vaunted S 3 Viking Planes nationalinterest org The Final Boat End of the USN s S 3B Vikings Defense Industry Daily 2 February 2009 Retrieved 3 February 2009 Lockheed Martin Aeronautics Begins S 3 Viking Full Scale Fatigue Testing Lockheed Martins 28 June 2001 U S Navy retires last Lockheed Martin S 3B Viking from fleet service Lockheed Martin 30 January 2009 Archived from the original on 2 June 2009 Retrieved 21 April 2010 U S Navy Retires Last Lockheed Martin S 3B Viking from Fleet Service Carrier Based Multi Mission Aircraft Completes 35 Year Career Lockheed Martin Archived from the original on 2 June 2009 Retrieved 5 February 2009 S 3B Viking re enters USN service in test range surveillance role IHS Jane s 3 June 2010 Retrieved 8 June 2010 Last S 3B Viking overhauled at FRCSE heads for California based test squadron Naval Air Systems Command United States Navy 3 June 2011 Archived from the original on 26 September 2012 Retrieved 23 April 2013 S 3B Viking re enters USN service in test range surveillance role Janes com Retrieved 13 March 2015 a b US Navy retires its last S 3B Vikings Flightglobal com 14 January 2016 U S Navy bids farewell to the S 3 Viking theaviationist com 14 January 2016 Carey Bill 5 July 2013 NASA Tests Prototype UAS Datalink Radio AINonline NASA Retires a Research Workhorse NASA 8 July 2021 Retrieved 12 July 2021 U S Navy Time to Bring Back the S 3 Viking Thediplomat com 9 November 2015 Sung Ki Jung S Korea envisions light aircraft carrier Archived 15 March 2015 at archive today Defense News 26 October 2013 Retrieved 13 March 2015 S Korea moving ahead to introduce Viking anti submarine planes into service Yonhapnews co kr 9 September 2015 Perrett Bradley Kim Minseok 16 March 2017 S Korea Eyeing P 8 Swordfish As S 3 Upgrade Dropped Aviation Week Melbourne Australia and Seoul Archived from the original on 19 October 2017 Retrieved 19 October 2017 Waldron Greg 18 October 2017 ADEX Big MPAs hunt for Seoul maritime requirement FlightGlobal Seoul Archived from the original on 19 October 2017 Retrieved 19 October 2017 Cavas Christopher P 9 April 2014 Lockheed revives an old idea for new carrier cargo plane Defense News Archived from the original on 9 February 2015 Kreisher Otto 2 February 2015 Navy 2016 budget funds V 22 COD buy carrier refuel Breaking Defense Navy and Marines Sign MOU for Bell Boeing Osprey to be Next Carrier Delivery Aircraft News USNI org 13 January 2015 Updated Navy and Marines Sign MOU for Bell Boeing Osprey to be Next Carrier Delivery Aircraft 13 January 2015 Archived from the original on 18 January 2015 Retrieved 23 May 2022 a href Template Cite web html title Template Cite web cite web a CS1 maint bot original URL status unknown link Michell 1994 pp 334 335 Elward 1998 p 53 Wittry Jan 2 August 2008 Military Aircraft to Perform Aviation Safety Research NASA s Glenn Research Center Archived from the original on 24 November 2010 Retrieved 21 April 2010 VS 21 gonavy jp Retrieved 2 September 2022 VS 22 1960 2009 gonavy jp Retrieved 2 September 2022 VS 24 1960 2007 gonavy jp Retrieved 2 September 2022 VS 27 www wings aviation ch Retrieved 2 September 2022 VS 27 2 gonavy jp Retrieved 2 September 2022 VS 28 1960 1992 gonavy jp Retrieved 2 September 2022 VS 29 gonavy jp Retrieved 2 September 2022 a b VS 30 gonavy jp Retrieved 2 September 2022 VS 32 gonavy jp Retrieved 2 September 2022 VS 33 gonavy jp Retrieved 2 September 2022 VS 35 1987 1988 gonavy jp Retrieved 2 September 2022 VS 35 1991 2005 gonavy jp Retrieved 2 September 2022 VS 37 gonavy jp Retrieved 2 September 2022 VS 38 gonavy jp Retrieved 2 September 2022 VS 41 gonavy jp Retrieved 2 September 2022 VS 41 Sea Control Squadron FORTY ONE www globalsecurity org Retrieved 2 September 2022 VQ 5 gonavy jp Retrieved 2 September 2022 VQ 6 gonavy jp Retrieved 2 September 2022 VX 1 Air Test and Evaluation Squadron ONE AIRTEVRON ONE www globalsecurity org Retrieved 2 September 2022 S 3 Viking 157993 aerialvisuals ca Retrieved 8 July 2015 S 3 Viking 159417 aerialvisuals ca Retrieved 8 July 2015 S 3 Viking 159404 aerialvisuals ca Retrieved 8 July 2015 S 3 Viking 159387 National Naval Aviation Museum Archived from the original on 9 July 2015 Retrieved 8 July 2015 S 3 Viking 159412 aerialvisuals ca Retrieved 8 July 2015 S 3 Viking 159731 PDF USS Yorktown Museum Retrieved 8 July 2015 S 3 Viking 159743 Aviation Wing of the Marietta Museum of History Archived from the original on 11 July 2015 Retrieved 8 July 2015 S 3 Viking 159755 aerialvisuals ca Retrieved 8 July 2015 S 3 Viking 159766 USS Midway Museum Archived from the original on 9 July 2015 Retrieved 8 July 2015 Museum Aircraft Inventory Collection Spans WWII and Desert Storm USS Midway Aircraft Carrier Museum San Diego Archived from the original on 9 July 2015 Retrieved 8 July 2015 a href Template Cite web html title Template Cite web cite web a CS1 maint bot original URL status unknown link S 3 Viking 159770 aerialvisuals ca Retrieved 8 July 2015 S 3 Viking 160123 aerialvisuals ca Retrieved 8 November 2017 S 3 Viking 160599 USS Hornet Museum Retrieved 8 July 2015 S 3 Viking 160604 Pima Air and Space Museum Archived from the original on 27 June 2015 Retrieved 8 July 2015 NAVAIR 00 110AS3 1 Standard Aircraft Characteristics Model S 3A Aircraft Washington D C Naval Air Systems command January 1973 Lednicer David The Incomplete Guide to Airfoil Usage m selig ae illinois edu Retrieved 16 April 2019 S 3 Viking Anti Submarine and Litoral Warfare Aircraft www military today com Retrieved 13 January 2020 Bibliography edit Elward Brad E Lockheed S 3 Viking and ES 3A Shadow World Air Power Journal Volume 34 Autumn Fall 1998 ISBN 1 86184 019 5 pp 48 97 Francillon Rene J Lockheed Aircraft since 1913 London Putnam 1982 ISBN 0 370 30329 6 Francillon Rene J Lockheed Aircraft Since 1913 Naval Institute Press 1987 ISBN 9780870218972 Godfrey David W H Fixer Finder Striker The S 3A Viking Air International Volume 7 Issue 1 July 1974 pp 5 13 Michell Simon Jane s Civil and Military Upgrades 1994 95 Coulsdon UK Jane s Information Group 1994 ISBN 0 7106 1208 7 Taylor John W R Jane s All The World s Aircraft 1976 77 London Jane s Yearbooks 1976 ISBN 0 354 00538 3 Winchester Jim ed Military Aircraft of the Cold War The Aviation Factfile London Grange Books plc 2006 ISBN 1 84013 929 3 Viking Variations Air International Volume 31 Number 1 July 1986 pp 41 45 External links edit nbsp Wikimedia Commons has media related to Lockheed S 3 Viking S 3B Viking fact file Archived 28 September 2008 at the Wayback Machine and S 3 Viking history page on Navy mil Archived 20 June 2009 at the Wayback Machine S 3 Viking War Hoover Naval Aviation News July August 2004 Retrieved from https en wikipedia org w index php title Lockheed S 3 Viking amp oldid 1211200231, wikipedia, wiki, book, books, library,

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