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N1
FunctionManned lunar carrier rocket
ManufacturerOKB-1
Country of originUSSR
Size
Height105 metres (344 ft)
Diameter17.0 metres (55.8 ft)
Mass2,735,000 kilograms (6,030,000 lb)
Stages3
Capacity
Payload to LEO
Mass90,000 pounds (41,000 kg)
Payload to TLI
Mass23,500 pounds (10,700 kg)
Launch history
StatusRetired
Launch sitesLC-110, Baikonur
Total launches4
Success(es)0
Failure(s)4
First flight21 February 1969
Last flight23 November 1972
First stage – Block A
Diameter17.0 metres (55.8 ft)
Powered by30 NK-15
Maximum thrust50,300 kilonewtons (11,300,000 lbf)
Specific impulse3,240 N-sec/kg (330 sec)
Burn time125 seconds
PropellantRP-1/LOX
Second stage – Block B
Powered by8 NK-15V
Maximum thrust14,040 kilonewtons (3,160,000 lbf)
Specific impulse3,390 N-sec/kg (346 sec)
Burn time120 seconds
PropellantRP-1/LOX
Third stage – Block V
Powered by4 NK-21
Maximum thrust1,610 kilonewtons (360,000 lbf)
Specific impulse3,460 N·sec/kg (353 sec)
Burn time370 seconds
PropellantRP-1/LOX
Fourth stage (N1/L3) – Block G (Earth departure)
Powered by1 NK-19
Maximum thrust446.00 kilonewtons (100,260 lbf)
Specific impulse3,420 N-sec/kg (349 sec)
Burn time443 seconds
PropellantRP-1/LOX



N1 or N-1 or 11A52 (Н1, Н-1, 11А52 in Russian) was a secret family of Soviet heavy lifting rockets intended to launch large military space stations, or to send Soviet cosmonauts to the Moon or the planet Mars. The Soviet classified technical name N1 was an abbreviation from the Russian word носитель (nositel' short for raketa-nositel', "rocket booster/bearer"). 11A52 was an alphanumeric designation for the N1 on its design and production documents. It is also known by NATO as the G-1e or SL-15. No official public name for the N1 was ever adopted. The N1-L3 version was developed to compete with the United States Apollo Saturn V to land a man on the Moon. N1-L3 was underfunded, undertested, and started development in October 1965, almost four years after the Saturn V. After four launch attempts all failed to reach orbit, the program was suspended in 1974, and in 1976 was officially cancelled. The N1 program (along with the rest of the Soviet manned moon programs) was kept secret until the arrival of glasnost; information about the N1 was first published in 1990.

History

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Early work

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Development of the N1 began in 1959 under the direction of Sergey Korolyov at his OKB-1 Design Bureau. The original design proposed a 50 ton payload intended as a launcher for military space stations and a manned Mars flyby using a nuclear engine upper stage. The N1 was the largest of three proposed designs; the N2 was somewhat smaller and intended to compete with Vladimir Chelomei's proposed UR-200, and the much smaller N3, which would replace Korolyov's "workhorse" R-7 rocket. At this point the N-series was strictly a "paper project".

In December 1959 a meeting was called with all of the chief designers, who presented their latest designs to the military. Korolyov presented the N-series along with a much more modest series of upgrades to the R-7. Vladimir Chelomei, Korolyov's rival, presented his "Universal Rocket" series, which used a common lower stage in various clustered configurations to meet a wide variety of payload requirements. Mikhail Yangel, perhaps the most successful of the three but with little political power, presented the small R-26 intended to replace the R-16, the much larger R-36 ICBM, as well as the SK-100, a space launcher based on a huge cluster of R-16's. In the end the military planners selected Chelomei's UR-100 as the new "light" ICBM, and Yangel's R-36 for the "heavy" role. They saw no need for any of the larger dedicated launchers, but also gave Korolyov funding to develop the Molniya (8K78) adaptation of the R-7.

In March 1961, during a meeting at Baikonur, designers discussed the N1 design, along with a competing Glushko design, the R-20. In June, Korolyov was given a small amount of funding for N1 development between 1961 and 1963. In May 1961 a government report, On Reconsideration of the Plans for Space Vehicles in the Direction of Defense Purposes, set the first test launch of the N1 rocket for 1965.

Moon missions

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When the US announced the goal of landing a man on the Moon in May 1961, Korolyov proposed a lunar mission based on a new spacecraft, eventually known as Soyuz, that was designed for Earth orbit rendezvous. Several launches would be used to build up a complete moon package, one for the Soyuz, another for the lunar lander, and additional launches with cislunar engines and fuel. This approach makes the least demands on the launch vehicle, as the payload mass is reduced for any one launch. This is at the expense of requiring a rapid launch rate to ensure that the modules are built up before running out of consumables while waiting on-orbit. Even using this profile the lunar boosters and fuel were too large for any existing Soviet launcher. Korolyov thus proposed development of the N1 with a 50-ton payload – much smaller than the N1 design that would eventually be delivered.

To power the new design, Valentin Glushko, who then held a near-monopoly on rocket engine design in the Soviet Union, proposed a new engine, the RD-270, running on unsymmetrical dimethylhydrazine (UDMH) and nitrogen tetroxide (N2O4). This formula is hypergolic (i.e. its components ignite on contact, reducing the complexity of the combustion system), and was widely used in Glushko's existing engine designs used on various ICBMs. The propellant pair UDMH/N2O4 has a lower specific impulse than kerosene/liquid oxygen, and Korolyov felt that any realistic high-performance design would need to use higher-performance fuels. Korolyov also felt that the toxic nature of the fuels and their exhaust presented a safety risk for manned space flight.

The difference of opinions led to a falling out between Korolyov and Glushko. In 1962 a committee that was appointed to break the logjam agreed with Korolyov. Since Glushko refused to work on such a design, Korolyov eventually "gave up" and decided to enlist the help of Nikolai Kuznetsov, the OKB-276 jet engine designer. Kuznetsov, who had limited experience in rocket design, responded with a fairly small engine known as the NK-15, which would be delivered in several versions tuned to different altitudes. To achieve the required amount of thrust, it was proposed that a large number of NK-15s would be used in a clustered configuration around the outer rim of the lower-stage booster. The "inside" of the ring of engines would be open, with air piped into the hole via inlets near the top of the booster stage. The air would be mixed with the exhaust in order to provide thrust augmentation, as well as additional combustion with the deliberately fuel-rich exhaust. The ring-like arrangement of so many rocket engine nozzles on the N1's first stage could have been an attempt at creating a crude version of a toroidal aerospike engine system; more conventional aerospike engines were also studied.

Meanwhile, Chelomei's OKB-52 proposed an alternate mission with much lower risk. Instead of a manned landing, Chelomei proposed a series of circumlunar missions which he felt would be able to beat the US. He also proposed a new booster for the mission, clustering three of his existing UR-200 designs (known as the SS-11 in the west) to produce a single larger booster, the UR-500. However, these plans were dropped when Glushko offered Chelomei the RD-270, which allowed the construction of a much simpler "monoblock" design, also known as the UR-500. He also proposed adapting an existing spacecraft design for the circumlunar mission, the single-cosmonaut LK-1. Chelomei felt that improvements in early UR-500/LK-1 missions would allow the spacecraft to be adapted for two cosmonauts.

The Soviet military, specifically the Strategic Missile Forces, was reluctant to support what was essentially a politically-motivated project with little military utility, but both Korolyov and Chelomei pushed for a lunar mission. For some time, between 1961 and 1964, Chelomei's less aggressive proposal was accepted, and development of his UR-500 and the LK-1 were given a high priority.

Space race

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When Gemini missions put the US in the lead in space development, Korolyov pressured Nikita Khrushchev into making a lunar landing before the US. Since there were a number of unknowns in the Earth orbit rendezvous profile that could not be tested in time, a direct ascent profile similar to Apollo was selected. This required much larger boosters.

Korolyov proposed a larger N1, combined with a new lunar package known as the L3. The L3 combined the lunar engines, an adapted Soyuz spacecraft (the LOK) and the new LK lunar lander in a single package. Chelomei responded with a clustered UR-500-derived vehicle, topped with the L1 spacecraft already under development, and a lander of their own design. Korolyov's proposal was selected as the winner in August 1964, while Chelomei was told to continue with his circumlunar UR-500/L1 work.

When Khrushchev was overthrown later in 1964, infighting between the two teams started anew. In October 1965 the Soviet government ordered a compromise; the circumlunar mission would be launched on Chelomei's UR-500 using Korolyov's Soyuz spacecraft in place of their own Zond design, aiming for a launch in 1967, the 50th anniversary of the Bolshevik Revolution. Korolyov, meanwhile, would continue with his original N1-L3 proposal. Korolyov had clearly won the argument, but work on the L1 continued anyway, as the Zond.

Korolyov died in 1966 due to complications after minor surgery, and the work was taken over by his deputy, Vasily Mishin. Mishin did not have Korolyov's political astuteness or power, a problem that led to the eventual downfall of the N1, and of the lunar mission as a whole.

A comparison of the U.S. Saturn V rocket with the Soviet N1. The N1 was slightly shorter yet delivered much more thrust. Even so, due to the Saturn V's use of liquid hydrogen propellant in its upper stages as opposed to the N1's use of kerosene in all stages, the Saturn V could lift heavier payloads into space. A flight history comparison strongly favors the Saturn V: in 13 operational launches, it lost no payloads; the N1 lost all payloads in four launches. The US spent more money and took longer developing the Saturn V.

Description

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The N1 was a very large rocket, standing 105 metres tall (345 feet)—among the world's largest launch vehicles, essentially equal to the Saturn V in height and mass, and greater in lift-off thrust, though with significantly less payload capability. The N1-L3 consisted of five stages in total, three for immediate boost into orbit (the N1), and another two for the lunar portion (the L3). Fully loaded and fueled, the N1-L3 weighed 2788 metric tons (6.1 million lb). The lower three stages were shaped to produce a single truncated cone just over 10 m wide at the base, while the L3 section was cylindrical at about 4.4 m wide. The conical shaping of the lower stages was due to the arrangement of the tanks within, a smaller spherical kerosene tank on top of the larger liquid oxygen tank below.

The first stage, Block A, was powered by 30 NK-15 engines arranged in two rings, the main ring of 24 at the outer edge of the booster, the inner of 6 at about half diameter. The engines were the first ever staged combustion cycle engines. The control system was primarily based on differential throttling of the engines, the outer ring for pitch and yaw, the inner six on gimballing mounts for roll. The Block A also included four grid fins, which were later used on Soviet air-to-air missile designs. In total, the Block A produced 43 meganewtons (9,700,000 lbf)[1] of thrust. This exceeded the 33.7 meganewtons (7,600,000 lbf)[2] thrust of the Saturn V.

The second stage, Block B, was powered by 8 NK-15V engines arranged in a single ring. The only major difference between the NK-15 and -15V was the engine bell and various tunings for air-start and high-altitude performance. The upper stage, Block V (V being the third letter in the Russian alphabet), mounted four smaller NK-21 engines in a square.

During the N1's lifetime, a series of improved engines was introduced to replace those used in the original design. The first stage used an adaptation of the NK-15 known as the NK-33, the second stage a similar modification known as the NK-43, and finally the third stage used the NK-31. The resulting modified N1 was known as the N1F, but did not fly before the project's cancellation.

In comparison with the American Saturn V, the N1 is slightly shorter, more slender overall, but wider at the base. Generally the N1 produced much more thrust than the Saturn V. It used only kerosene fuel in all three of its stages, and had somewhat lesser overall performance than the Saturn; the N1 stack was intended to place about 95 tons of payload into Low Earth orbit, whereas the Saturn V could orbit about 130 tons. The US's earlier work with liquid hydrogen propellant gave them the confidence to use this higher energy fuel on the Saturn upper stages, which significantly reduced the upper stages' take-off weight and led to a higher payload fraction.

Problems

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Complex plumbing was needed to feed fuel and oxidizer into the clustered arrangement of rocket engines. This proved to be extremely fragile, and was a major factor in the design's launch failures. Furthermore the N1's Baikonur launch complex could not be reached by heavy barge. To allow transport by rail, all the stages had to be broken down and re-assembled. As a result, the complex and destructive vibrational modes (which ripped apart propellant lines and turbines) as well as exhaust plume fluid dynamic problems (causing vehicle roll, vacuum cavitation, and other problems) were not discovered and worked out before flight.

As a result of its technical difficulties, in turn due to lack of funding for full-up testing, the N1 never successfully completed a test flight. All four unmanned launches out of 12 planned tests ended in failure, each before first-stage separation. The longest flight lasted 107 seconds, just before 1st stage separation. Two test launches occurred in 1969, one in 1971 and the final one in 1972.

Mishin continued with the N1F project after the cancellation of plans for a manned moon landing in the hope that the booster would be used to launch a large space station comparable to the US Skylab. The program was terminated in 1974 when Mishin was replaced by Glushko. Two N1Fs were being readied for launch at the time, but these plans were cancelled.

The program was followed by the "Vulkan" concept for a huge Proton-like hypergolic-fueled vehicle, and then in 1976 by the commencement of the Energia/Buran program.

N1 vehicles

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  • N1 1M1 - Static test model, two first stages painted gray, third stage gray-white and L3 white.
  • N1 1L and 2L - test vehicles
  • N1 3L - first launch attempt, engine fire, exploded at 12 km
  • N1 4L - never launched, parts used for other launchers
  • N1 5L - partially painted gray; early launch failure destroyed pad
  • N1 6L - launched from the second pad 110, deficient roll control, destroyed at 1 km
  • N1 7L - all white, last launch attempt; pogo failure, cutoff at 40 km
  • N1 8L, 9L and 10L

Remains

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The two flight-ready N1Fs were scrapped and their remains could still be found around Baikonur years later used as shelters and storage sheds. The boosters were deliberately broken up in an effort to cover up the USSR's failed moon attempts, which was publicly stated to be a paper project in order to fool the US into thinking there was a race going on. This cover story lasted until glasnost, when the remaining hardware was seen publicly on display.

The advanced engines for the N1F escaped destruction. Although the rocket as a whole was unreliable, the NK-33 and NK-43 engines are considered rugged and reliable when used as a standalone unit. About 150 engines survived, and in the mid-1990s, Russia sold 36 engines to Aerojet General for $1.1 million each. This company also acquired a license for the production of new engines.

Supplied through Aerojet, three of the engines were incorporated into Japanese rockets J-1 and J-2. The US company Kistler Aerospace worked on incorporating these engines into a new rocket design, with which Kistler sought to eventually offer commercial launch services, before declaring bankruptcy. In Russia, N1 engines were not used again until 2004, when the remaining 70 or so engines were incorporated into a new rocket design. As of 2005, the project has been frozen due to the lack of funding. The current design of Orbital Science's Taurus II launch vehicle includes two NK-33s as the first stage engines.

Launch history

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  • February 21, 1969 – Vehicle serial number 3L – Due to unexpected high-frequency oscillations in the gas generator, one of the pipes broke apart and a fire started. This fire reached the engine control system which at the 68.7 s of flight sent the command to shut down the engines.[3] The rocket exploded at 12,200 m altitude, 69 seconds after liftoff. The emergency rescue system was activated and did its job properly, saving the mockup of the spacecraft. All subsequent flights had freon fire extinguishers installed next to every engine.[4]
  • July 3, 1969 – Vehicle serial number 5L – At liftoff a loose bolt was ingested into a fuel pump, which failed. After detecting the inoperative fuel pump, the automatic engine control shut off 29 of 30 engines, which caused the rocket to stall. The rocket exploded 23 seconds after shutting off the engines, destroying the rocket and launch tower in the biggest explosion in the history of rocketry.[5] 2,600 tons of fuel had the power of a small nuclear bomb. The destroyed complex was photographed by American satellites, disclosing that the Soviet Union was building a Moon rocket.[4] The rescue system saved the dummy spacecraft again. After this flight, fuel filters were installed in later models.[4]
  • June 26, 1971 – Vehicle serial number 6L – experienced an uncontrolled roll immediately after liftoff beyond the capability of the control system to compensate; the vehicle was destroyed 51 seconds after liftoff at 1 km altitude. This vehicle had dummy upper stages without the rescue system. The next, last vehicle had much more powerful stabilization system with dedicated engines (in the previous versions stabilization was done by directing exhaust from the main engines). The engine control system was also reworked, increasing the number of sensors from 700 to 13,000.[4]
  • November 23, 1972 – Vehicle serial number 7L – the engines ran for 106.93 seconds after which pogo oscillation of the first stage caused engine cutoff (a problem which also plagued the engineers of the US Saturn V) at 40 km altitude; a programmed shutdown of some of the engines to prevent over-stressing of the structure led to an explosion of the oxygen pump on the engine number 4.[4] The vehicle disintegrated.

Confusion on designation

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The overall rocket system actually bore the designation N1-L3: N1 was the booster, while the L3 was mounted on top for the trip to lunar orbit and, it was hoped, lunar landing. There is a great deal of confusion among Russian online sources as to whether it is N1-L3 (Russian: Н1-Л3) or N1-LZ (Russian: Н1-ЛЗ) because of the similarity of the Cyrillic letter Ze for "Z" and the number "3". Sometimes both forms will be used within the same Russian website (or even the same article[3][6]). English sources refer only to N1-L3, and it seems clear it is a number because there were lunar projects with code names from L1 to L5.[7]

See also

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References

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  1. ^ Wade, Mark (1997–2008). "N1". Encyclopedia Astronautica. Retrieved 2009-04-25.{{cite web}}: CS1 maint: date format (link)
  2. ^ Wade, Mark (1997–2008). "Saturn V". Encyclopedia Astronautica. Retrieved 2009-04-25.{{cite web}}: CS1 maint: date format (link)
  3. ^ a b "Buran".
  4. ^ a b c d e "Die russische Mondrakete N-1 (in German)".
  5. ^ "BBC – Space Race"
  6. ^ "Novosti-Kosmonavtiki".
  7. ^ "L3". USSR Moon Program. History. Narod.
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