Boeing 707

The Boeing 707 is an American long-range narrow-body airliner produced by Boeing Commercial Airplanes, its first jetliner. Developed from the Boeing 367-80, a prototype first flown in 1954, the initial 707-120 first flew on December 20, 1957. Pan American World Airways began regular 707 service on October 26, 1958, and it was built until 1979. A quadjet, the 707 has a swept wing with podded engines. Its larger fuselage cross-section allowed six-abreast economy seating, retained in the later 720, 727, 737, and 757.

Boeing 707
A low-wing, four-engined jet aircraft, the 707 was introduced by Pan Am in 1958.
Role Narrow-body airliner
National origin United States
Manufacturer Boeing Commercial Airplanes
First flight December 20, 1957 (1957-12-20)[1]
Introduction October 26, 1958 (1958-10-26), with Pan American World Airways
Status In limited military and charter service[lower-alpha 1]
Primary users Pan Am (historical)
Produced 1956 (1956)-1978 (1978)
Number built 865 (excludes Boeing 720s)[4]
Developed from Boeing 367-80
Variants
Developed into

Although it was not the first commercial jetliner in service, the 707 was the first to be widespread and is often credited with beginning the Jet Age.[5] It dominated passenger air transport in the 1960s and remained common through the 1970s, on domestic, transcontinental, and transatlantic flights, as well as cargo and military applications. It established Boeing as a dominant airliner manufacturer with its 7x7 series. The initial, 145-foot-long (44 m) 707-120 was powered by Pratt & Whitney JT3C turbojet engines. The shortened long-range 707-138 and the more powerful 707-220 entered service in 1959. The longer range, heavier 707-300/400 series have a larger wing and stretched slightly by 8 feet (2.4 m). Powered by Pratt & Whitney JT4A turbojets, the 707-320 entered service in 1959, and the 707-420 with Rolls-Royce Conway turbofans in 1960.

The 720, a lighter short-range variant, was also introduced in 1960. Powered by Pratt & Whitney JT3D turbofans, the 707-120B debuted in 1961 and the 707-320B in 1962. The 707-120B typically flew 137 passengers in two classes over 3,600 nmi (6,700 km), and could accommodate 174 in one class. With 141 passengers in two classes, the 707-320/420 could fly 3,750 nmi (6,940 km) and the 707-320B up to 5,000 nmi (9,300 km). The 707-320C convertible passenger-freighter model entered service in 1963, and passenger 707s have been converted to freighter configurations. Military derivatives include the E-3 Sentry airborne reconnaissance aircraft and the C-137 Stratoliner VIP transport. A total of 865 Boeing 707s were produced and delivered, not including 154 Boeing 720s.

Development

Model 367-80 origins

The 707 was based on the 367-80 (the "Dash 80").
The six-abreast cabin

During and after World War II, Boeing was known for its military aircraft. The company had produced innovative and important bombers, from the B-17 Flying Fortress and B-29 Superfortress, to the jet-powered B-47 Stratojet and B-52 Stratofortress. The company had produced aircraft that were not as successful commercially as those from Douglas and other competitors, with the only noteworthy exception being the Boeing 314 Clipper. As Douglas and Lockheed dominated the postwar air transport boom the demand for Boeing's offering, the 377 Stratocruiser, quickly faded with only 56 examples sold and no new orders as the 1940s drew to a close. That venture had netted the company a $15 million loss.[6] During 1949 and 1950, Boeing embarked on studies for a new jet transport and saw advantages with a design aimed at both military and civilian markets. Aerial refueling was becoming a standard technique for military aircraft, with over 800 KC-97 Stratofreighters on order. The KC-97 was not ideally suited for operations with the USAF's new fleet of jet-powered bombers; this was where Boeing's new design would win military orders.[7]

The project was enabled by the Pratt & Whitney JT3C turbojet engine, the civilian version of the J57 that yielded much more power than the previous generation of jet engines and was proving itself with the B-52. Freed from the design constraints imposed by the limitations late-1940s jet engines, which led to the Comet disasters, developing a robust, safe, and high capacity jet aircraft was within Boeing's grasp. Boeing studied numerous wing and engine layouts for its new transport/tanker, some of which were based on the B-47 and C-97, before settling on the 367-80 quadjet prototype aircraft. The "Dash 80" took less than two years from project launch in 1952 to rollout on May 14, 1954, then first flew on July 15, 1954. The prototype was a proof-of-concept aircraft for both military and civilian use. The United States Air Force was the first customer, using it as the basis for the KC-135 Stratotanker aerial refueling airplane.

Whether the passenger 707 would be profitable was far from certain. At the time, nearly all of Boeing's revenue came from military contracts. In a demonstration flight over Lake Washington outside Seattle, on August 7, 1955, test pilot Tex Johnston performed a barrel roll in the 367-80 prototype.[8] Although he justified his unauthorized action to Bill Allen, the president of Boeing, as selling the airplane with a 1 'g' maneuver he was told not to do it again.[9]

The 132 in (3,352.80 mm) wide fuselage of the Dash 80 was large enough for four-abreast (two-plus-two) seating like the Stratocruiser. Answering customers' demands and under Douglas competition, Boeing soon realized this would not provide a viable payload, so it widened the fuselage to 144 in (3,660 mm) to allow five-abreast seating and use of the KC-135's tooling.[10] Douglas Aircraft had launched its DC-8 with a fuselage width of 147 in (3,730 mm). The airlines liked the extra space and six-abreast seating, so Boeing increased the 707's width again to compete, this time to 148 in (3,760 mm).[11]

Production and testing

Early 707-120 in Boeing livery

The first flight of the first-production 707-120 took place on December 20, 1957, and FAA certification followed on September 18, 1958.[12] Both test pilots Joseph John "Tym" Tymczyszyn and James R. Gannett were awarded the first Iven C. Kincheloe Award for the test flights that led to certification.[13] A number of changes were incorporated into the production models from the prototype. A Krueger flap was installed along the leading edge between the inner and outer engines on early 707-120 and -320 models.[14][15] This was in response to de Havilland Comet overrun accidents which occurred after over-rotating on take-off. Wing stall would also occur on the 707 with over-rotation so the leading-edge flaps were added to prevent stalling even with the tail dragging on the runway.[16]

Further developments

The -320 and -420 are 8 ft (2.4 m) longer than the initial -120; later 707s were powered by JT3D turbofans.

The initial standard model was the 707-120 with JT3C turbojet engines. Qantas ordered a shorter-bodied version called the 707-138, which was a -120 with six fuselage frames removed, three in front of the wings, and three aft. The frames in the 707 were set 20 in (510 mm) apart, so this resulted in a shortening of 10 ft (3.0 m) to a length of 134 ft 6 in (41.0 m). With the maximum takeoff weight the same as that of the -120 (247,000 lb (112 t)), the -138 was able to fly the longer routes that Qantas needed.[15] Braniff International Airways ordered the higher-thrust version with Pratt & Whitney JT4A engines, the 707-220. The final major derivative was the 707-320, which featured an extended-span wing and JT4A engines, while the 707-420 was the same as the -320, but with Conway turbofan engines. British certification requirements relating to go-arounds with one engine inoperative also forced Boeing to increase the height of the tail fin on all 707 variants, as well as add a ventral fin, which was retrofitted on earlier -120 and -220 aircraft. These modifications also aided in the mitigation of Dutch roll by providing more stability in yaw.

Though initially fitted with turbojet engines, the dominant engine for the Boeing 707 family was the Pratt & Whitney JT3D, a turbofan variant of the JT3C with lower fuel consumption and higher thrust. JT3D-engined 707s and 720s were denoted with a "B" suffix. While many 707-120Bs and -720Bs were conversions of existing JT3C-powered machines, 707-320Bs were available only as newly built aircraft, as they had a stronger structure to support a maximum takeoff weight increased by 19,000 lb (8,600 kg), along with modifications to the wing. The 707-320B series enabled nonstop westbound flights from Europe to the West Coast of the United States and from the US to Japan.

The final 707 variant was the 707-320C, (C for "Convertible"), which had a large fuselage door for cargo. It had a revised wing with three-sectioned leading-edge flaps, improving takeoff and landing performance and allowing the ventral fin to be removed (although the taller fin was retained). The 707-320Bs built after 1963 used the same wing as the -320C and were known as 707-320B Advanced aircraft.

Production of the passenger 707 ended in 1978. In total, 1,010 707s were built for civilian use, though many of these found their way to military service. The 707 production line remained open for purpose-built military variants until 1991, with the last new-build 707 airframes built as E-3 and E-6 aircraft.

Traces of the 707 are still found in the 737, which uses a modified version of the 707's fuselage, as well as the same external nose and cockpit configurations as those of the 707. These were also used on the previous 727, while the 757 also used the 707 fuselage cross-section.

Design

The 35° swept wing includes the fuel tanks.

Wings

The 707's wings are swept back at 35°, and like all swept-wing aircraft, display an undesirable "Dutch roll" flying characteristic that manifests itself as an alternating combined yawing and rolling motion. Boeing already had considerable experience with this on the B-47 and B-52, and had developed the yaw damper system on the B-47 that would be applied to later swept-wing configurations like the 707. However, many pilots new to the 707 had no experience with this instability, as they were mostly accustomed to flying straight-wing propeller-driven aircraft such as the Douglas DC-7 and Lockheed Constellation.

On one customer-acceptance flight, where the yaw damper was turned off to familiarize the new pilots with flying techniques, a trainee pilot's actions violently exacerbated the Dutch roll motion and caused three of the four engines to be torn from the wings. The plane, a brand new 707-227, N7071, destined for Braniff, crash-landed on a river bed north of Seattle at Arlington, Washington, killing four of the eight occupants.[17]

In his autobiography, test pilot Tex Johnston describes a Dutch roll incident he experienced as a passenger on an early commercial 707 flight. As the aircraft's movements did not cease and most of the passengers became ill, he suspected a misrigging of the directional autopilot (yaw damper). He went to the cockpit and found the crew unable to understand and resolve the situation. He introduced himself and relieved the ashen-faced captain, who immediately left the cockpit feeling ill. Johnston disconnected the faulty autopilot and manually stabilized the plane "with two slight control movements".[18]

Engines

The 707 uses engine-driven turbocompressors to supply compressed air for cabin pressurization. On many commercial 707s, the outer port (number 1) engine mount is distinctly different from the other three, as this engine is not fitted with a turbocompressor. Later-model 707s typically had this configuration, although American Airlines had turbocompressors on engines 2 and 3 only. Early 707 models often had turbocompressor fairings on all four engines, but with only two or three compressors installed.[19]

The JT3D-3B engines are readily identifiable by the large gray secondary-air inlet doors in the nose cowl. These doors are fully open (sucked in at the rear) during takeoff to provide additional air. The doors automatically close with increasing airspeed.

The 707 was the first commercial jet aircraft to be fitted with clamshell-type thrust reversers.[20]

Upgraded engines

Omega Air's 707-330C testbed for the 707RE program takes off from the Mojave Airport, 2007.

Pratt & Whitney, in a joint venture with Seven Q Seven (SQS) and Omega Air, selected the JT8D-219 as a replacement powerplant for Boeing 707-based aircraft, calling their modified configuration a 707RE.[21] Northrop Grumman selected the -219 to re-engine the US Air Force's fleet of 19 E-8 Joint STARS aircraft, which would allow the J-STARS more time on station due to the engine's greater fuel efficiency. NATO also planned to re-engine their fleet of E-3 Sentry AWACS aircraft. The -219 is publicized as being half the cost of the competing powerplant, the CFM International CFM56, and is 40 dB quieter than the original JT3D engines.[21]

Operational history

Pan Am introduced the 707-120 on October 26, 1958.

The first commercial orders for the 707 came on October 13, 1955,[22] when Pan Am committed to 20 Boeing 707s, and 25 Douglas DC-8s, dramatically increasing their passenger capacity (in available revenue passenger seat-miles per hour/per day) over its existing fleet of propeller aircraft. The competition between the 707 and DC-8 was fierce. Pan American ordered these planes, when and as they did, so that they would be the operators of the "first-off" production line for each aircraft type. Until their initial batch of the aircraft had been delivered to them and put into operation, Pan American would have the distinction of being not only the "Launch Customer" for both transcontinental American jets, but the exclusive operator of American intercontinental jet transports for at least a year.

The only rival in intercontinental jet aircraft production at the time was the British de Havilland Comet. However, this was never real competition for the American market as the Comet series had been the subject of fatal accidents (due to design flaws) early in its introduction, withdrawn from service, virtually redesigned from scratch, and reintroduced as version -4. It was also smaller and slower than the 707. Several major airlines committed only to the (second place in the production race) Douglas DC-8. Airlines and their passengers at the time preferred the more established Douglas Aircraft maker of passenger aircraft. Douglas had decided to wait for a larger and more fuel efficient engine (Pratt & Whitney JT4A) and to design a larger and longer range aircraft around this engine. To stay competitive, Boeing made a late and costly decision to redesign and enlarge the 707's wing to help increase range and payload. The new version was the 707-320.[23]

Pan Am was the first airline to operate the 707; the carrier inaugurated 707 service with a christening at National Airport on October 17, 1958, attended by President Eisenhower, followed by a transatlantic flight for VIPs (personal guests of founder Juan Trippe) from Baltimore's Friendship International Airport to Paris.[24] The aircraft's first commercial flight was from Idlewild Airport, New York, to Le Bourget, Paris, on October 26, 1958, with a fuel stop in Gander, Newfoundland. In December, National Airlines operated the first US domestic jet airline flights between New York/Idlewild and Miami, using 707s leased from Pan Am; American Airlines was the first domestic airline to fly its own jets, on January 25, 1959. TWA started domestic 707-131 flights in March and Continental Airlines started 707-124 flights in June; airlines that had ordered only the DC-8, such as United, Delta, and Eastern, were left without jets until September and lost market share on transcontinental flights. Qantas was the first non-US airline to use the 707s, starting in 1959.[25][26]

The 707 quickly became the most popular jetliner of its time. Its popularity led to rapid developments in airport terminals, runways, airline catering, baggage handling, reservations systems, and other air transport infrastructure. The advent of the 707 also led to the upgrading of air traffic control systems to prevent interference with military jet operations.[27]

As the 1960s drew to a close, the exponential growth in air travel led to the 707 being a victim of its own success. The 707 was now too small to handle the increased numbers of passengers on the routes for which it was designed. Stretching the fuselage was not a viable option because the installation of larger, more powerful engines would need a larger undercarriage, which was not feasible given the design's limited ground clearance at takeoff. Boeing's answer to the problem was the first wide-body airliner—the Boeing 747. The 707's first-generation engine technology was also rapidly becoming obsolete in the areas of noise and fuel economy, especially after the 1973 oil crisis.

Iranian Saha Airlines was the last commercial operator, until April 2013.

In 1982, during the Falklands War, the Argentine Air Force used 707s to track the approaching task force. They were escorted away by Royal Navy Sea Harriers without being able to approach closer than 80 miles.[28]

Operations of the 707 were threatened by the enactment of international noise regulations in 1985. Shannon Engineering of Seattle developed a hush kit with funding from Tracor, Inc, of Austin, Texas. By the late 1980s, 172 Boeing 707s had been equipped with the Quiet 707 package. Boeing acknowledged that more 707s were in service than before the hush kit was available.[29]

Trans World Airlines flew the last scheduled 707 flight for passengers by a US carrier on October 30, 1983,[30] although 707s remained in scheduled service by airlines from other nations for much longer. Middle East Airlines of Lebanon flew 707s and 720s in front-line passenger service until the end of the 1990s. Since LADE of Argentina removed its 707-320Bs from regular service in 2007, Saha Airlines of Iran was the last commercial operator of the Boeing 707.[3][31] After suspending its scheduled passenger service in April 2013,[2] Saha continued to operate a small fleet of 707s on behalf of the Iranian Air Force.[3][32]

As of 2019, only a handful of 707s remain in operation, acting as military aircraft for aerial refueling, transport, and AWACS missions.[33]

Variants

Although certified as Series 100s, 200s, 300s, etc., the different 707 variants are more commonly known as Series 120s, 220s, 320s, and so on, where the "20" part of the designation is Boeing's "customer number" for its development aircraft.

707-020

The 707-020 (720) is 9 ft (2.7 m) shorter than the 707-120.

Announced in July 1957 as a derivative for shorter flights from shorter runways, the 707-020 first flew on November 23, 1959. Its type certificate was issued on June 30, 1960, and it entered service with United Airlines on July 5, 1960. As a derivative, the 720 had low development costs, allowing profitability despite few sales.

Compared to the 707-120, it has a length reduced by 9 feet (2.7 m), a modified wing and a lightened airframe for a lower maximum takeoff weight. Powered by four Pratt & Whitney JT3C turbojets, the initial 720 could cover a 2,800 nmi (5,200 km) range with 131 passengers in two classes. Powered by JT3D turbofans, the 720B first flew on October 6, 1960, and entered service in March 1961. It could seat 156 passengers in one class over a 3,200 nmi (5,900 km) range. A total of 154 Boeing 720s and 720Bs were built until 1967. Some 720s were later converted to the 720B specification. The 720 was succeeded by the Boeing 727 trijet.

707-120

A Qantas 707-138: a -120 shortened by 10 ft (3.0 m)

The 707-120 was the first production 707 variant, with a longer, wider fuselage, and greater wingspan than the Dash 80. The cabin had a full set of rectangular windows and could seat up to 189 passengers.[34] It was designed for transcontinental routes, and often required a refueling stop when flying across the North Atlantic. It had four Pratt & Whitney JT3C-6 turbojets, civilian versions of the military J57, initially producing 13,000 lbf (57.8 kN) with water injection. Maximum takeoff weight was 247,000 lb (112,000 kg) and first flight was on December 20, 1957. Major orders were the launch order for 20 707-121 aircraft by Pan Am and an American Airlines order for 30 707-123 aircraft. The first revenue flight was on October 26, 1958;[35] 56 were built, plus seven short-bodied -138s; the last -120 was delivered to Western in May 1960.

The 707-138 was a -120 with a fuselage 10 ft (3.0 m) shorter than the others, with 5 ft (1.5 m) (three frames) removed ahead and behind the wing, giving increased range. Maximum takeoff weight was the same 247,000 lb (112,000 kg) as the standard version. It was a variant for Qantas, thus had its customer number 38. The seven -138s were delivered to Qantas between June and September 1959, and first carried passengers in July of that year.

The 707-120B had Pratt & Whitney JT3D-1 turbofan engines, which were quieter, more powerful, and more fuel-efficient, producing 17,000 lbf (75.6 kN) each, with the later JT3D-3 version giving 18,000 lbf (80 kN). (This thrust did not require water injection, eliminating both the system and 5000–6000 lb of water.) The -120B had the wing modifications introduced on the 720 and a longer tailplane; a total of 72 were built, 31 for American and 41 for TWA, plus six short-bodied -138Bs for Qantas. American had its 23 surviving -123s converted to -123Bs, but TWA did not convert its 15 -131s. The only other conversions were Pan American's five surviving -121s and one surviving -139, the three aircraft delivered to the USAF as -153s and the seven short-bodied Qantas -138s. The first flight of the -120B was on June 22, 1960, and American carried the first passengers in March 1961; the last delivery was to American in April 1969. Maximum weight was 258,000 lb (117,000 kg) for both the long- and short-bodied versions.

707-220

The 707-220 was designed for hot and high operations with more powerful 15,800 lbf (70.3 kN) Pratt & Whitney JT4A-3 turbojets. Five of these were produced, but only four were ultimately delivered, with one being lost during a test flight. All were for Braniff International Airways and carried the model number 707-227; the first entered service in December 1959. This version was made obsolete by the arrival of the turbofan-powered 707-120B.

707-320

The stretched -320, powered by JT4A turbojets

The 707-320 Intercontinental is a stretched version of the turbojet-powered 707-120, initially powered by JT4A-3 or JT4A-5 turbojets producing 15,800 lbf (70.3 kN) each (most eventually got 17,500 lbf (77.8 kN) JT4A-11s). The interior allowed up to 189 passengers, the same as the -120 and -220 series, but improved two-class capacity due to an 80-in fuselage stretch ahead of the wing (from 138 ft 10 in (42.32 m) to 145 ft 6 in (44.35 m) ), with extensions to the fin and horizontal stabilizer extending the aircraft's length further.[36] The longer wing carried more fuel, increasing range by 1,600 miles (2,600 km) and allowing the aircraft to operate as true transoceanic aircraft. The wing modifications included outboard and inboard inserts, as well as a kink in the trailing edge to add area inboard.[15] Takeoff weight was increased to 302,000 lb (137,000 kg) initially and to 312,000 lb (142,000 kg) with the higher-rated JT4As and center section tanks. Its first flight was on January 11, 1958; 69 turbojet 707-320s were delivered through January 1963, the first passengers being carried (by Pan Am) in August 1959.

707-420

The -420, powered by Rolls-Royce Conway low-bypass turbofans

The 707-420 was identical to the -320, but fitted with Rolls-Royce Conway 508 (RCo.12) turbofans (or by-pass turbojets as Rolls-Royce called them) of 18,000 lbf (80 kN) thrust each.[37] The first announced customer was Lufthansa. BOAC's controversial order was announced six months later, but the British carrier got the first service-ready aircraft off the production line. The British Air Registration Board refused to give the aircraft a certificate of airworthiness, citing insufficient yaw control, excessive rudder forces, and the ability to over-rotate on takeoff, stalling the wing on the ground (a fault of the de Havilland Comet 1). Boeing responded by adding 40 inches to the vertical stabilizer, applying full instead of partial rudder boost, and fitting an underfin to prevent over-rotation. These modifications except to the fin under the tail became standard on all 707 variants and were retrofitted to all earlier 707s. The 37 -420s were delivered to BOAC, Lufthansa, Air-India, El Al, and Varig through November 1963; Lufthansa was the first to carry passengers, in March 1960.

707-320B

The -320B, powered by JT3D turbofans

The 707-320B had the application of the JT3D turbofan to the Intercontinental, but with aerodynamic refinements. The wing was modified from the -320 by adding a second inboard kink, a dog-toothed leading edge, and curved low-drag wingtips instead of the earlier blunt ones.[15] These wingtips increased overall wingspan by 3.0 ft. Takeoff gross weight was increased to 328,000 lb (149,000 kg). The 175 707-320B aircraft were all new-build; no original -320 models were converted to fan engines in civilian use. First service was June 1962, with Pan Am.

The 707-320B Advanced is an improved version of the -320B, adding the three-section leading-edge flaps already seen on the -320C. These reduced takeoff and landing speeds and altered the lift distribution of the wing, allowing the ventral fin found on earlier 707s to be deleted. From 1965, -320Bs had the uprated -320C undercarriage allowing the same 335,000 lb (152,000 kg) MTOW. These were often identified as 707-320BA-H.

707-320C

The 707-320C, a convertible passenger–freight configuration

The 707-320C has a convertible passenger–freight configuration, which became the most widely produced variant of the 707. The 707-320C added a strengthened floor and a new cargo door to the -320B model. The wing was fitted with three-section leading-edge flaps which allowed the deletion of the underfin. A total of 335 of this variant were built, including some with JT3D-7 engines (19,000 lbf (85 kN) takeoff thrust) and a takeoff weight of 335,000 lb (152,000 kg). Most -320Cs were delivered as passenger aircraft with airlines hoping the cargo door would increase second-hand values. The addition of two additional emergency exits, one on either side aft of the wing raised the maximum passenger limit to 219. Only a few aircraft were delivered as pure freighters. One of the final orders was by the Iranian Government for 14 707-3J9C aircraft capable of VIP transportation, communication, and in-flight refueling tasks.

707-700

The 707-700 was a test aircraft used to study the feasibility of using CFM International CFM56 engines on a 707 airframe and possibly retrofitting existing aircraft with the engine. After testing in 1979, N707QT, the last commercial 707 airframe, was restored to 707-320C configuration and delivered to the Moroccan Air Force as a tanker aircraft via a "civilian" order. Boeing abandoned the retrofit program, since it felt it would be a threat to the Boeing 757 and Boeing 767 programs. The information gathered from testing led to the eventual retrofitting of CFM56 engines to the USAF C-135/KC-135R models, and some military versions of the 707 also used the CFM56. The Douglas DC-8 "Super 70" series with CFM56 engines was developed and extended the DC-8's life in a stricter noise regulatory environment. As a result, significantly more DC-8s remained in service into the 21st century than 707s.

Undeveloped variants

The 707-620 was a proposed domestic range-stretched variant of the 707-320B. The 707-620 was to carry around 200 passengers while retaining several aspects of the 707-320B. It would have been delivered around 1968 and would have also been Boeing's answer to the stretched Douglas DC-8 Series 60. Had the 707-620 been built, it would have cost around US$8,000,000.[38] However, engineers discovered that a longer fuselage and wing meant a painstaking redesign of the wing and landing-gear structures. Rather than spend money on upgrading the 707, engineer Joe Sutter stated the company "decided spending money on the 707 wasn't worth it". The project was cancelled in 1966 in favor of the newer Boeing 747.[39]

The 707-820 was a proposed intercontinental stretched variant of the 707-320B. It was to be powered by four Pratt & Whitney JT3D-15 turbofan engines and would have had a 10-foot (3.0 m) extension in wingspan. Two variations were proposed, the 707-820(505) model and the 707-820(506) model. The 505 model would have had a fuselage 45 feet (14 m) longer than the 707-320B and would have carried 209 passengers in mixed-class configuration and 260 passengers in all-economy configuration. The 506 model would have had a fuselage 55 feet (17 m) longer than the 707-320B and would have carried 225 passengers in mixed class configuration and 279 passengers in all economy configuration. Like the 707-620, the 707-820 was also set to compete with the stretched DC-8-60 Super Series models. The design was being pitched to American, TWA, BOAC, and Pan Am at the time of its proposal in early 1965.[40] The 707-820 would have cost US$10,000,000.[38] Like the 707-620, the 707-820 would have required a massive structural redesign to the wing and gear structures. The 707-820 was also cancelled in 1966 in favor of the 747.[39]

Military versions

RAAF 707-320C

The militaries of the US and other countries have used the civilian 707 aircraft in a variety of roles, and under different designations. (The 707 and US Air Force's KC-135 were developed in parallel from the Boeing 367–80 prototype.)

The Boeing E-3 Sentry is a US military airborne warning and control system (AWACS) aircraft based on the Boeing 707 that provides all-weather surveillance, command, control, and communications.

The Northrop Grumman E-8 Joint STARS is an aircraft modified from the Boeing 707-300 series commercial airliner. The E-8 carries specialized radar, communications, operations and control subsystems. The most prominent external feature is the 40 ft (12 m) canoe-shaped radome under the forward fuselage that houses the 24 ft (7.3 m) APY-7 active electronically scanned array side looking airborne radar antenna.

The VC-137C variant of the Stratoliner was a special-purpose design meant to serve as Air Force One, the secure transport for the President of the United States. These models were in operational use from 1962 to 1990. The two aircraft remain on display: SAM 26000 is at the National Museum of the United States Air Force near Dayton, Ohio and SAM 27000 is at the Ronald Reagan Presidential Library in Simi Valley, California.

The Canadian Forces also operated the Boeing 707 with the designation CC-137 Husky (707-347C) from 1971 to 1997.

717

Boeing 717 was the company designation for the C-135 Stratolifter and KC-135 Stratotanker derivatives of the 367-80. The designation was later reused in renaming the McDonnell Douglas MD-95 to Boeing 717 after the company was merged with Boeing.

Operators

Boeing's customer codes used to identify specific options and livery specified by customers was started with the 707, and has been maintained through all Boeing's models. In essence the same system as used on the earlier Boeing 377, the code consisted of two digits affixed to the model number to identify the specific aircraft version. For example, Pan American World Airways was assigned code "21". Thus, a 707-320B sold to Pan Am had the model number 707-321B. The number remained constant as further aircraft were purchased; thus, when Pan American purchased the 747-100, it had the model number 747-121.

In the 1980s, the USAF acquired around 250 used 707s to provide replacement turbofan engines for the KC-135E Stratotanker program.[41]

The 707 is no longer operated by major airlines. American actor John Travolta owned an ex-Qantas 707-138B, with the registration N707JT. In May 2017, he donated the plane to the Historical Aircraft Restoration Society near Wollongong, Australia. The plane was to be flown to Illawarra Regional Airport, where HARS is based, once repairs to ensure safe flying condition have been completed.[42]

Orders and deliveries

Deliveries

707 Delivery Summary[43]
Total 1994 1993 1992 1991 1990 1989 1988 1987 1986 1985 1984 1983 1982 1981 1980 1979 1978 1977 1976
1010 1 0 5 14 4 5 0 9 4 3 8 8 8 2 3 6 13 8 9
1975 1974 1973 1972 1971 1970 1969 1968 1967 1966 1965 1964 1963 1962 1961 1960 1959 1958 1957 1956
7 21 11 4 10 19 59 111 118 83 61 38 34 68 80 91 77 8 0 0

707 Model summary

707 Model Summary[44]
Series Deliveries
707-120 56
707-120B 72
707-138 7
707-138B 6
707-220 5
707-320 69
707-320B 174
707-320C 337
707-420 37
707-E3A 57
707-E3D 7
707-E3F 4
707-E6A 17
707-KE3 8
707 Total 856
720-000 65
720-000B 89
720 Total 154
707+720 Total 1010

Accidents and incidents

As of January 2019, the 707 has been in 261 aviation occurrences and 174 hull-loss accidents with a total of 3,039 fatalities.[45][46][47] The deadliest incident involving the 707 was the Agadir air disaster which took place on August 3, 1975 with 188 fatalities.

On January 14, 2019, a Saha Airlines cargo flight crashed, killing 15 people and seriously injuring one more person.[48] It was the last civil 707 in operation.[49]

Aircraft on display

The Qantas 707-138B alongside a Boeing 747 at the Qantas Founders Outback Museum
  • VH-XBA model 707-138B (number 29) is one of the first 707s exported, and the first civilian jet registered in Australia (to airline Qantas in 1959); it is on display at the Qantas Founders Outback Museum in Longreach, Queensland, Australia.[50]
  • 4X-BYD model 707-131(F), (number 34), an ex-Israeli Air Force and TWA aircraft, is on display at the Israeli Air Force Museum near Hatzerim, Israel.[51]
  • 4X-JYW model 707-328 (msn. 173617, number 110), is a former Air France (F-BHSE) aircraft sold to the Israeli Air Force; it is on display at the Israeli Air Force Museum, Beersheba – Hatzerim (LLHB).[52]
  • G-APFJ model 707-436 (msn. 17711, number 163) is a forward fuselage on display at the National Museum of Flight, East Fortune, in BOAC livery.[53]
  • D-ABOB model 707-430 (msn. 17720, number 115) is a former Lufthansa airliner on display at Hamburg Airport (HAM/EDDH); it was originally registered as D-ABOD.[54]
  • D-ABOF model 707-430 (msn. 17721, number 162), was formerly operated by Lufthansa. Its nose section is preserved at the Deutsches Museum in Munich.[55]
  • 4X-ATA model 707-458 (msn. 18070, number number 205) is a former El Al aircraft, the nose of which is preserved at the Cradle of Aviation Museum in Garden City, New York.[56]
  • N130KR model 707-458 (msn. 18071, number 216) is a former El Al (4X-ATB) aircraft restored in 1960s Lufthansa markings with fictitious registration D-ABOC previously displayed at Berlin – Tegel (TXL/EDDT); it is now parked at the edge of the airfield.[57]
  • CC-CCG model 707-330B (msn. 18642, number 233), an ex-Lufthansa and LAN Chile craft, is undergoing restoration at Santiago – Los Cerillos, Chile (ULC/SCTI) and will be repainted in the Chilean airline's 1960s scheme.[58]
  • F-BLCD model 707-328B (number 471) is on display at the Musée de l'Air et de l'Espace, Paris, France.[59]
  • EP-IRJ model 707-321B (msn. 18958, number 475), a former Iran Air aircraft, was originally delivered to Pan American as N416PA, and is currently the Air Restaurant at Mehrabad Airport, Tehran.[60]
  • A20-627 model 707-338C (msn. 19627, number 707) flew with the RAAF. Originally delivered to Qantas as VH-EAG, its forward fuselage is preserved at the Historical Aircraft Restoration Society, Albion Park Rail, New South Wales, Australia.[61]
  • 1419 model 707-328C (msn. 19917, number 763), an ex-SAAF aircraft, is on display at the South African Air Force MuseumSwartkop Air Force Base, Pretoria.[62]
  • N893PA model 707-321B (msn. 20030, number 791), a former CAAC aircraft originally delivered to Pan American, is preserved at Tianjin, China.[63]
  • HZ-HM2 Model 707-386C (msn. 21081, number 903) is a Saudi Air Force VIP aircraft painted in the current Saudia color scheme; delivered in 1975, it is registered as HZ-HM1 and preserved at the Saudi Air Force Museum, Riyadh.[64]

Specifications

three-view diagram
707 Airplane characteristics[36]
Variant 707-120 707-120B 707-320 707-420 707-320B 707-320C
Cockpit crew[65] Three minimum: Pilot, Copilot, and Flight Engineer
1-Class/cargo:16–18 174 @ 34" 189 @ 34" 194 @ 32"
2-class/cargo:16–18 137 (32J @ 38" + 105Y @ 34") 141 (18J + 123Y) 13 88×125" pallets
Exit Limit[65] 189 219
Length:5 145 ft 1 in (44.22 m) 152 ft 11 in (46.61 m)
Fuselage width:19 148 in / 3.759 m
Wingspan:5 130 ft 10 in (39.88 m) 142 ft 5 in (43.41 m) 145 ft 9 in (44.42 m)
Wing area[66] 2,433 sq ft / 226.3 m² 3,050 sq ft / 283 m²
Tail height:5 41 ft 8 in (12.70 m) 42 ft 2 in (12.85 m) 42 ft 1 in (12.83 m) 42 ft 0 in (12.80 m)
MTOW:9 247,000 lb / 123.5 t 258,000 lb / 129 t 312,000 lb / 141.7 t 333,600 lb / 151.5 t
OEW:9 122,533 lb / 57.6 t[lower-alpha 2] 127,500 lb / 58.4 t[lower-alpha 3] 142,600 lb / 64.6 t[lower-alpha 4] 148,800 lb / 67.5 t[lower-alpha 4] 148,300 lb / 67.3 t[lower-alpha 5]
Fuel capacity:9 17,330USgal / 65.59 m3 23,820USgal / 90.16 m3 23,855 USgal / 90.29 m3
Engines (x4):36 P&W JT3C-6 P&W JT3D-1 JT4A-11/12 Conway-12 Pratt & Whitney JT3D-3/7
Thrust per engine:36–41 13,500 lbf (60 kN) 17,000 lbf (76 kN) 17,500 lbf (78 kN) 18,000 lbf (80 kN) - 19,000 lbf (85 kN)
Cruise[66] 484-540 kn / 897-1000 km/h 478-525 kn / 885-974 km/h
Range:30–34 3,000 nmi (5,600 km)[lower-alpha 6] 3,600 nmi (6,700 km)[lower-alpha 7] 3,750 nmi (6,940 km)[lower-alpha 8] 5,000 nmi (9,300 km)[lower-alpha 8] 2,900 nmi (5,400 km)[lower-alpha 9]
Takeoff 7,500 ft (2.3 km) 10,700 ft (3.25 km) 10,000 ft (3.0 km)
Landing[lower-alpha 10]:42–46 6,500 ft (2.0 km) 7,200 ft (2.2 km) 5,900 ft (1.8 km) 6,200 ft (1.9 km)

See also

Related development

Aircraft of comparable role, configuration, and era

Related lists

References

Footnotes

  1. Retired from airline passenger use in April 2013;[2] civilian service ended in January 2019[3]
  2. domestic configuration
  3. domestic configuration
  4. international configuration
  5. convertible: cargo
  6. 137 passengers and baggage
  7. 137 passengers and baggage
  8. 141 passengers and baggage
  9. 13 88×125 inch pallets + 17,000 lb / 7.72 t lower deck cargo
  10. MLW, SL, dry

Citations

  1. "Boeing 707 Jet Transport." aviation-history.com. Retrieved December 27, 2009.
  2. "Iranian airline SAHA halts operation due to outdated fleet". payvand.com. Retrieved April 1, 2015.
  3. Waldron, Greg (January 14, 2019). "Boeing 707 crashes near Tehran". Flightglobal.com. Retrieved January 15, 2019.
  4. "707 Model Summary". Boeing Commercial Airplanes. Retrieved December 10, 2010.
  5. Wilson, p. 13. Quote: "The Boeing 707, the airliner which introduced jet travel on a large scale." and Wilson 1999, p. 48. Quote: "The USA's first jetliner, the 707 was at the forefront of jet travel revolution..."
  6. "Gamble in the Sky." Time, July 19, 1954. Retrieved December 27, 2009.
  7. Wilson 1998, p. 18
  8. Ruffin, Steven A (2005). Aviation's Most Wanted: The Top 10 book of Winged Wonders, Lucky Landings and Other Aerial Oddities. Washington D.C.: Potomac Books. p. 320. ISBN 978-1574886740.
  9. Johnston, A. M. (December 2000). Tex Johnston: Jet-Age Test Pilot. Smithsonian Books. p. 204. ISBN 978-1-56098-931-8.
  10. Francillon 1999, p. 34
  11. Irving 1994, pp. 194–197
  12. Pither 1998, p. 21
  13. "Society of Experimental Test Pilots, History." setp.org. Retrieved January 11, 2014.
  14. Bowers 1989, p. 434
  15. "Boeing 707." airlinercafe.com. Retrieved December 27, 2009.
  16. The Road To The 707, The Inside Story of Designing the 707, William H. Cook1991, ISBN 0 9629605 0 0, p.249
  17. Accident description at the Aviation Safety Network
  18. Johnston, A.M. (December 2000). Tex Johnston: Jet-Age Test Pilot. Smithsonian Books. p. 247. ISBN 978-1-56098-931-8.
  19. "Ultimate Boeing 707 Guide". Airliner Cafe. Retrieved February 17, 2016.
  20. "Boeing's Jet Stratoliner." Popular Science, July 1954, p. 124.
  21. "Boeing 707." Archived November 7, 2007, at the Wayback Machine Flug Revue, May 12, 2002. Retrieved December 27, 2009.
  22. Bowers 1989, p. 433
  23. Haggerty, James J. Jr., ed. (1958). 1957-1958 Aircraft Year Book (PDF). Washington, D.C.: American Aviation Publishers. p. 232. ASIN B000AP5582. Retrieved July 19, 2019.
  24. "Pan Am's First Passenger Jet to Europe (1958)". Ghosts of DC. March 2012. Retrieved March 1, 2012.
  25. "Boeing Completed 707 for Australians". The Seattle Times. February 16, 1959. p. 5.
  26. "Entering the Jet Age". Qantas. Retrieved January 19, 2018.
  27. "Jets Across the U.S." Time, November 17, 1958. Retrieved December 27, 2009.
  28. Finlan, Alastair. The Royal Navy in the Falklands Conflict and the Gulf War: Culture and Strategy (British Politics and Society). London: Rutelage, 2004. ISBN 978-0-7146-8569-4
  29. Federal Aviation Administration issued Supplemental Type Certificate SA2699NM to SHANNON engineering March 6, 1985.
  30. "Farewell Flight." Time, November 14, 1983. Retrieved December 27, 2009.
  31. Calder, Simon (June 22, 2018). "Why the Boeing 707 Plane United the World". independent.co.uk. Retrieved March 17, 2020.
  32. Turpial Development (October 31, 2014). "Flashback Friday: 57th Anniversary of First Production Boeing 707 Roll-out". airwaysmag.com. Retrieved March 17, 2020.
  33. Hoyle, Craig (December 4, 2018). "ANALYSIS: 2019 World Air Forces Directory". Flightglobal.com. Retrieved January 15, 2019.
  34. PA, AA, TW and CO 707-120s started with 109–112 "revenue" seats and maybe a few lounge seats.
  35. Pither 1998, p. 22
  36. "707 Airplane characteristics for airport planning" (PDF). Boeing. May 2011.
  37. "commercial aircraft - sq ft - ias - 1961 - 1700 - Flight Archive". flightglobal.com. Retrieved April 1, 2015.
  38. "T0WARD8 200-SEAT BOEINGS" (Press release). Flight International. March 25, 1965. Retrieved December 12, 2012.
  39. Haenggi, Michael (2003). Boeing Widebodies. Saint Paul, Minnesota: Zenith Press. pp. 15 and 17. ISBN 978-0-7603-0842-4.
  40. "Boeing 707-820: First details of the longer, faster, heavier and more" (Press release). Flight International. June 3, 1965. Retrieved December 12, 2012.
  41. "KC-135E." Global Security. Retrieved December 27, 2009.
  42. Media, Australian Community Media - Fairfax (May 27, 2017). "John Travolta donates his Boeing 707 to HARS in Albion Park". Illawarra Mercury. Retrieved May 27, 2017.
  43. "707 Model Summary through March 2020". active.boeing.com. 2020. Retrieved April 20, 2020.
  44. "707 Model Summary through June 2019". active.boeing.com. 2019. Retrieved July 19, 2019.
  45. "Boeing 707 Accident summary." Aviation-Safety.net, March 4, 2016. Retrieved January 15, 2019.
  46. "Boeing 707 Accident Statistics." Aviation-Safety.net, January 14, 2019. Retrieved January 15, 2019.
  47. "Boeing 707 occurrences." Aviation-Safety.net, January 14, 2019. Retrieved January 15, 2019.
  48. Karimi, Nasser; Gambrell, Jon (January 14, 2019). "Cargo plane crash in Iran kills 15, leaves 1 survivor". AP News. Retrieved March 17, 2020.
  49. "Two air disasters in two days and their Hong Kong connection". South China Morning Post. January 24, 2019. Retrieved August 13, 2020.
  50. "Qantas Founders Museum Aircraft Collection". Qantas Founders Museum. Qantas Founders Museum. Retrieved April 1, 2017.
  51. "4X-BYD". jetphotos.net. Retrieved November 11, 2015.
  52. "4X-JYW". primeportal.net. Retrieved November 11, 2015.
  53. "Aircraft location". National Museums Scotland. National Museums Scotland. Retrieved April 1, 2017.
  54. "D-ABOB". airliners.net. Retrieved November 11, 2015.
  55. "Boeing 707-12 B, Front Section". Deutsches Museum. Retrieved April 1, 2017.
  56. "Boeing 707 at the Cradle of Aviation Museum". Cradle of Aviation Museum. Retrieved July 27, 2020.
  57. "N130KR". airplane-pictures.net. Retrieved November 11, 2015.
  58. "CC-CCG". airport-data.com. Retrieved November 11, 2015.
  59. "F-BLCD". flickr.com. September 12, 2015. Retrieved November 11, 2015.
  60. "EP-IRJ". airport-data.com. Retrieved November 11, 2015.
  61. "707th Boeing 707-338 Cockpit lands at HARS". aviationspottersonline.com. July 24, 2015. Retrieved November 11, 2015.
  62. "1419". airliners.net. Retrieved November 11, 2015.
  63. "N893PA". jetphotos.net. Retrieved November 11, 2015.
  64. "HZ-HM2". worldairpics.com. Retrieved November 11, 2015.
  65. "Type Certificate Data Sheet" (PDF). FAA. July 30, 1984.
  66. Gerard Frawley. "Aircraft Technical Data & Specifications > Boeing 707". The International Directory of Civil Aircraft via airliners.net.

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