Lockheed Star Clipper
Encyclopedia
Lockheed
's Star Clipper was a proposed Earth-to-orbit shuttle based around a large lifting body
spacecraft and a wrap-around drop tank
. Originally proposed during a USAF program in 1966, the basic Star Clipper concept lived on during the early years of the NASA
Space Shuttle program
, and as that project evolved, in a variety of new versions like the LS-200.
Although the Star Clipper design did not progress far in the STS program, it had an enormous effect on the emerging Space Shuttle
design. The detailed study of the cost advantages of the drop tank design demonstrated a dramatic reduction in development risk, and as a result, development costs. When funding for STS development was cut, the drop tank was taken up as a way to meet the developmental budgets, leading to the semi-reusable Space Shuttle
design.
was working at Douglas Aircraft where he formalized the calculation of aircraft operation economics. His methodologies were first published in 1940, and were later applied to the Douglas DC-6
and DC-7. The methodologies were later adopted as a standard by the Air Transport Association.
He later joined the Thor missile project as the chief design engineer, and this introduced him to the world of space launchers. With new upper stages, Thor became the Delta, one of the most-used launchers of the 1960s. In spite of Thor's success, Hunter was dissatisfied with the state of the launcher market and later wrote that "by the end of 1963 the state of recoverable rockets was terrible." He was convinced that as long as launchers were thrown away that access to space would never be affordable.
Several companies had already completed early paper studies of fully reusable designs, like the Martin Marietta Astrorocket and Douglas Astro. The designs used two flyback stages, one of which flew back to the launch point, while the other flew into orbit and landed after its mission. Hunter felt that any such design was tantamount to making two aircraft to do the job of one, and it was only the upper stage that was of any real use. By March 1964 he had developed a new solution to the problem, the stage-and-a-half configuration.
In a two-stage rocket, one rocket fires to lift a second high into the air, and then falls off. The second then fires and travels into orbit. The advantage to this design is that the weight of the rocket decreases as it climbs, reducing the amount of mass that has to be carried all the way into orbit. The downside to this approach is that you need two complete rockets, both expensive, and putting the two together to build a single unit for launch is a time consuming operation.
In his stage-and-a-half configuration, Hunter had only one rocket. However, no rocket of the era had the performance needed to reach orbit on its own with a useful payload, so some sort of staging was needed. Hunter's solution was to place just the fuel tanks in the "stage", which would be ejected during the ascent. This gave the vehicle the advantages of staging, but threw away only the tankage, returning all of the expensive parts for re-use. After landing the vehicle would be quickly refit, mated with another tank, and be ready for another mission.
Hunter moved to Lockheed in the fall of 1965. On his first day he was asked if there was anything Lockheed should be looking at, and he immediately suggested development of his stage-and-a-half design. His suggestions caught the ear of Eugene Root, president of Lockheed Missiles and Space, who gave him the go-ahead to study what became known as the Star Clipper.
office, rounding out missions into the mid 1970s. Beyond that, NASA evolved an aggressive program that included a permanently manned space station
, a small lunar base, and eventually a manned mission to Mars. Almost as an afterthough, the idea of a "logistics vehicle" developed in order to lower the cost of space station operations. The vehicle was dedicated to changing crews on the space station on a weekly basis, or as Walter Dornberger
put it, "an economical space plane capable of putting a fresh egg, every morning, on the table of every crew member of a space station circling the globe."
In 1967 George Mueller
organized a one-day meeting to discuss the logistics vehicle concept. A year earlier the Air Force and NASA had collaborated on a study of existing technologies in the "Integrated Launch and Re-entry Vehicle" project, or ILRV. ILRV had grouped the various industry submissions into three groups, "Class I" which placed a reusable spaceplane on top of an expendable booster, "Class II" were fully reusable rocket-based designs, and "Class III" used advanced air-breathing engines. Mueller dusted off the ILRV work and invited the same industry partners to present, deciding to concentrate only on the Class II designs.
Lockheed submitted Star Clipper, and McDonnell introduced another stage-and-a-half design, Tip Tank. General Dynamics
addressed Hunters concerns about building two aircraft for one mission in their Triamese, which used several identical spacecraft grouped together with only one travelling onto orbit. Chrysler
had the oddest submission, SERV
, which was so different that it was never considered seriously. The vast majority of the entries, however, were two-stage spaceplanes. As it became clear that the program was moving forward, NASA's own teams entered the fray, adding their own designs to the mix.
NASA supported the "classic" flyback design until 1971, when the maximum development budget was cut in half by the Office of Management and Budget, from about $10 to $5 billion. This was not enough to develop a fully reusable design, and the entire concept went back to the drawing board. It was then that Hunter's arguments for the Star Clipper made their lasting mark; the development costs for a stage-and-a-half design were much lower because there was only one spacecraft being developed. Ironically it was not Lockheed's spacecraft that would be eventually built, but North American Aviation
's version of the concept.
re-entry vehicle known as the LSC-8MX, which was based on the FDL-5LD and FDL-8H designs developed at the Air Force's Flight Dynamics Laboratory. At hypersonic speeds, during re-entry, the craft had a lift-to-drag ratio
of 1.8 to 1, giving it ample maneuvering capability. In the lower atmosphere, however, this was far too low to allow safe landings in the case of a go-around, so the Star Clipper featured small wings that rotated out of the side of the spacecraft at subsonic speeds, improving the L:D to hypersonic L/D of 8.1:1. To aid landings, two jet engines extended from the top of the fuselage, giving it the ability to abort landings. It was 186 ft (56.7 m) long and had a 106 ft (32.3 m) wide at the tips of its upturned wingtips.
The Clipper was powered by three 1.5 million pound thrust M-1
engines. Public versions of the design showed the engines being equipped with expanding nozzle
s, a way to improve the performance of the rocket engines by better matching them to the local atmospheric pressure as it climbs. However it was later revealed that Lockheed was actually proposing using a linear aerospike
engine for the production design. LOX
and some of the LH2 fuel was carried in tanks in the fuselage, but most of the LH2 was carried in a large external tank. The tank was shaped like an upside-down V, matching the shape of the sharply swept leading-edge of the lifting body. LH2 would be drawn from this tank first, and when it was empty it would detach and be released during the ascent. It was mounted and shaped such that the airflow around the craft would pull the tank up and over the spacecraft.
As the STS proposals moved from the initial Phase A designs into the Phase B detailed development, NASA set the cargo requirements smaller than the original Star Clipper's capabilities. A new version of the same design, the LS-200, emerged. Although the LS-200 was very similar to the earlier version, it was smaller overall, reduced the tank diameter from 285 to 156 inches (3,962.4 mm), the maximum allowed for road transport, and reduced payload from 50000 lb (22,679.6 kg) to 25000 lb (11,339.8 kg). The M-1 engines were replaced with the Space Shuttle Main Engine
, reducing total thrust from 5000000 lbf (22,241.1 kN) to 915085 lbf (4,070,500.9 N), while overall gross lift off weight fell from 3.5 million pounds to only 662286 lb (300,407.9 kg).
Lockheed Corporation
The Lockheed Corporation was an American aerospace company. Lockheed was founded in 1912 and later merged with Martin Marietta to form Lockheed Martin in 1995.-Origins:...
's Star Clipper was a proposed Earth-to-orbit shuttle based around a large lifting body
Lifting body
A lifting body is a fixed-wing aircraft configuration in which the body itself produces lift. In contrast to a flying wing, which is a wing with minimal or no conventional fuselage, a lifting body can be thought of as a fuselage with little or no conventional wing...
spacecraft and a wrap-around drop tank
Drop tank
In aeronautics, a drop tank is used to describe auxiliary fuel tanks externally carried by aircraft. A drop tank is expendable and often jettisonable...
. Originally proposed during a USAF program in 1966, the basic Star Clipper concept lived on during the early years of the NASA
NASA
The National Aeronautics and Space Administration is the agency of the United States government that is responsible for the nation's civilian space program and for aeronautics and aerospace research...
Space Shuttle program
Space Shuttle program
NASA's Space Shuttle program, officially called Space Transportation System , was the United States government's manned launch vehicle program from 1981 to 2011...
, and as that project evolved, in a variety of new versions like the LS-200.
Although the Star Clipper design did not progress far in the STS program, it had an enormous effect on the emerging Space Shuttle
Space Shuttle
The Space Shuttle was a manned orbital rocket and spacecraft system operated by NASA on 135 missions from 1981 to 2011. The system combined rocket launch, orbital spacecraft, and re-entry spaceplane with modular add-ons...
design. The detailed study of the cost advantages of the drop tank design demonstrated a dramatic reduction in development risk, and as a result, development costs. When funding for STS development was cut, the drop tank was taken up as a way to meet the developmental budgets, leading to the semi-reusable Space Shuttle
Space Shuttle
The Space Shuttle was a manned orbital rocket and spacecraft system operated by NASA on 135 missions from 1981 to 2011. The system combined rocket launch, orbital spacecraft, and re-entry spaceplane with modular add-ons...
design.
Max Hunter
Maxwell HunterMaxwell Hunter
Maxwell White Hunter II was a prominent American aerospace engineer. He worked on the design of the Douglas B-42 and B-43 bombers, the Honest John, Nike-Ajax, and Nike-Zeus missiles, the Thor IRBM, and on parts of the Strategic Defense Initiative.In later years he worked on space-launch vehicles...
was working at Douglas Aircraft where he formalized the calculation of aircraft operation economics. His methodologies were first published in 1940, and were later applied to the Douglas DC-6
Douglas DC-6
The Douglas DC-6 is a piston-powered airliner and transport aircraft built by the Douglas Aircraft Company from 1946 to 1958. Originally intended as a military transport near the end of World War II, it was reworked after the war to compete with the Lockheed Constellation in the long-range...
and DC-7. The methodologies were later adopted as a standard by the Air Transport Association.
He later joined the Thor missile project as the chief design engineer, and this introduced him to the world of space launchers. With new upper stages, Thor became the Delta, one of the most-used launchers of the 1960s. In spite of Thor's success, Hunter was dissatisfied with the state of the launcher market and later wrote that "by the end of 1963 the state of recoverable rockets was terrible." He was convinced that as long as launchers were thrown away that access to space would never be affordable.
Several companies had already completed early paper studies of fully reusable designs, like the Martin Marietta Astrorocket and Douglas Astro. The designs used two flyback stages, one of which flew back to the launch point, while the other flew into orbit and landed after its mission. Hunter felt that any such design was tantamount to making two aircraft to do the job of one, and it was only the upper stage that was of any real use. By March 1964 he had developed a new solution to the problem, the stage-and-a-half configuration.
In a two-stage rocket, one rocket fires to lift a second high into the air, and then falls off. The second then fires and travels into orbit. The advantage to this design is that the weight of the rocket decreases as it climbs, reducing the amount of mass that has to be carried all the way into orbit. The downside to this approach is that you need two complete rockets, both expensive, and putting the two together to build a single unit for launch is a time consuming operation.
In his stage-and-a-half configuration, Hunter had only one rocket. However, no rocket of the era had the performance needed to reach orbit on its own with a useful payload, so some sort of staging was needed. Hunter's solution was to place just the fuel tanks in the "stage", which would be ejected during the ascent. This gave the vehicle the advantages of staging, but threw away only the tankage, returning all of the expensive parts for re-use. After landing the vehicle would be quickly refit, mated with another tank, and be ready for another mission.
Hunter moved to Lockheed in the fall of 1965. On his first day he was asked if there was anything Lockheed should be looking at, and he immediately suggested development of his stage-and-a-half design. His suggestions caught the ear of Eugene Root, president of Lockheed Missiles and Space, who gave him the go-ahead to study what became known as the Star Clipper.
Space Transportation System
As the Apollo build-out started to wind down in 1966, NASA started looking at their future through and after the 1970s. In the short term a number of different uses of surplus Saturn hardware were grouped together into the Apollo Applications ProgramApollo Applications program
The Apollo Applications Program was established by NASA headquarters in 1968 to develop science-based manned space missions using surplus material from the Apollo program...
office, rounding out missions into the mid 1970s. Beyond that, NASA evolved an aggressive program that included a permanently manned space station
Space station
A space station is a spacecraft capable of supporting a crew which is designed to remain in space for an extended period of time, and to which other spacecraft can dock. A space station is distinguished from other spacecraft used for human spaceflight by its lack of major propulsion or landing...
, a small lunar base, and eventually a manned mission to Mars. Almost as an afterthough, the idea of a "logistics vehicle" developed in order to lower the cost of space station operations. The vehicle was dedicated to changing crews on the space station on a weekly basis, or as Walter Dornberger
Walter Dornberger
Major-General Dr Walter Robert Dornberger was a German Army artillery officer whose career spanned World Wars I and II. He was a leader of Germany's V-2 rocket program and other projects at the Peenemünde Army Research Center....
put it, "an economical space plane capable of putting a fresh egg, every morning, on the table of every crew member of a space station circling the globe."
In 1967 George Mueller
George Mueller
George Mueller is the name of:*George Mueller , former NASA deputy administrator*George Müller , Christian evangelist and coordinator of orphanages in England...
organized a one-day meeting to discuss the logistics vehicle concept. A year earlier the Air Force and NASA had collaborated on a study of existing technologies in the "Integrated Launch and Re-entry Vehicle" project, or ILRV. ILRV had grouped the various industry submissions into three groups, "Class I" which placed a reusable spaceplane on top of an expendable booster, "Class II" were fully reusable rocket-based designs, and "Class III" used advanced air-breathing engines. Mueller dusted off the ILRV work and invited the same industry partners to present, deciding to concentrate only on the Class II designs.
Lockheed submitted Star Clipper, and McDonnell introduced another stage-and-a-half design, Tip Tank. General Dynamics
General Dynamics
General Dynamics Corporation is a U.S. defense conglomerate formed by mergers and divestitures, and as of 2008 it is the fifth largest defense contractor in the world. Its headquarters are in West Falls Church , unincorporated Fairfax County, Virginia, in the Falls Church area.The company has...
addressed Hunters concerns about building two aircraft for one mission in their Triamese, which used several identical spacecraft grouped together with only one travelling onto orbit. Chrysler
Chrysler
Chrysler Group LLC is a multinational automaker headquartered in Auburn Hills, Michigan, USA. Chrysler was first organized as the Chrysler Corporation in 1925....
had the oddest submission, SERV
Chrysler SERV
SERV, short for Single-stage Earth-orbital Reusable Vehicle, was a proposed space launch system designed by Chrysler's Space Division for the Space Shuttle project. SERV was a single-stage to orbit spacecraft that took off from the existing Saturn V complexes and landed vertically at Kennedy for...
, which was so different that it was never considered seriously. The vast majority of the entries, however, were two-stage spaceplanes. As it became clear that the program was moving forward, NASA's own teams entered the fray, adding their own designs to the mix.
NASA supported the "classic" flyback design until 1971, when the maximum development budget was cut in half by the Office of Management and Budget, from about $10 to $5 billion. This was not enough to develop a fully reusable design, and the entire concept went back to the drawing board. It was then that Hunter's arguments for the Star Clipper made their lasting mark; the development costs for a stage-and-a-half design were much lower because there was only one spacecraft being developed. Ironically it was not Lockheed's spacecraft that would be eventually built, but North American Aviation
North American Aviation
North American Aviation was a major US aerospace manufacturer, responsible for a number of historic aircraft, including the T-6 Texan trainer, the P-51 Mustang fighter, the B-25 Mitchell bomber, the F-86 Sabre jet fighter, the X-15 rocket plane, and the XB-70, as well as Apollo Command and Service...
's version of the concept.
Description
Star Clipper was based around a large lifting bodyLifting body
A lifting body is a fixed-wing aircraft configuration in which the body itself produces lift. In contrast to a flying wing, which is a wing with minimal or no conventional fuselage, a lifting body can be thought of as a fuselage with little or no conventional wing...
re-entry vehicle known as the LSC-8MX, which was based on the FDL-5LD and FDL-8H designs developed at the Air Force's Flight Dynamics Laboratory. At hypersonic speeds, during re-entry, the craft had a lift-to-drag ratio
Lift-to-drag ratio
In aerodynamics, the lift-to-drag ratio, or L/D ratio, is the amount of lift generated by a wing or vehicle, divided by the drag it creates by moving through the air...
of 1.8 to 1, giving it ample maneuvering capability. In the lower atmosphere, however, this was far too low to allow safe landings in the case of a go-around, so the Star Clipper featured small wings that rotated out of the side of the spacecraft at subsonic speeds, improving the L:D to hypersonic L/D of 8.1:1. To aid landings, two jet engines extended from the top of the fuselage, giving it the ability to abort landings. It was 186 ft (56.7 m) long and had a 106 ft (32.3 m) wide at the tips of its upturned wingtips.
The Clipper was powered by three 1.5 million pound thrust M-1
M-1 (rocket engine)
Aerojet's M-1 was the largest and most powerful liquid hydrogen-fueled rocket engine to be designed and built. The M-1 offered a baseline thrust of 6.67 million N and 8 million N as its immediate growth target...
engines. Public versions of the design showed the engines being equipped with expanding nozzle
Expanding nozzle
The expanding nozzle is a type of rocket nozzle that, unlike traditional designs, maintains its efficiency at a wide range of altitudes. It is a member of the class of altitude compensating nozzles, a class that also includes the plug nozzle and aerospike...
s, a way to improve the performance of the rocket engines by better matching them to the local atmospheric pressure as it climbs. However it was later revealed that Lockheed was actually proposing using a linear aerospike
Aerospike engine
The aerospike engine is a type of rocket engine that maintains its aerodynamic efficiency across a wide range of altitudes through the use of an aerospike nozzle. It is a member of the class of altitude compensating nozzle engines. A vehicle with an aerospike engine uses 25–30% less fuel at low...
engine for the production design. LOX
Lox
Lox is salmon fillet that has been cured. In its most popular form, it is thinly sliced—less than in thickness—and, typically, served on a bagel, often with cream cheese, onion, tomato, cucumber and capers...
and some of the LH2 fuel was carried in tanks in the fuselage, but most of the LH2 was carried in a large external tank. The tank was shaped like an upside-down V, matching the shape of the sharply swept leading-edge of the lifting body. LH2 would be drawn from this tank first, and when it was empty it would detach and be released during the ascent. It was mounted and shaped such that the airflow around the craft would pull the tank up and over the spacecraft.
As the STS proposals moved from the initial Phase A designs into the Phase B detailed development, NASA set the cargo requirements smaller than the original Star Clipper's capabilities. A new version of the same design, the LS-200, emerged. Although the LS-200 was very similar to the earlier version, it was smaller overall, reduced the tank diameter from 285 to 156 inches (3,962.4 mm), the maximum allowed for road transport, and reduced payload from 50000 lb (22,679.6 kg) to 25000 lb (11,339.8 kg). The M-1 engines were replaced with the Space Shuttle Main Engine
Space Shuttle main engine
The RS-25, otherwise known as the Space Shuttle Main Engine , is a reusable liquid-fuel rocket engine built by Pratt & Whitney Rocketdyne for the Space Shuttle, running on liquid hydrogen and oxygen. Each Space Shuttle was propelled by three SSMEs mated to one powerhead...
, reducing total thrust from 5000000 lbf (22,241.1 kN) to 915085 lbf (4,070,500.9 N), while overall gross lift off weight fell from 3.5 million pounds to only 662286 lb (300,407.9 kg).