The Bell Aerosystems Lunar Landing Research Vehicle (LLRV, nicknamed the Flying Bedstead) was a
Project Apollo era program to build a simulator for the
Moon landing
A Moon landing is the arrival of a spacecraft on the surface of the Moon. This includes both crewed and robotic missions. The first human-made object to touch the Moon was the Soviet Union's Luna 2, on 13 September 1959.
The United S ...
s. The LLRVs were used by the FRC, now known as the NASA
Armstrong Flight Research Center, at
Edwards Air Force Base, California, to study and analyze piloting techniques needed to fly and land the
Apollo Lunar Module in the Moon's low gravity environment.
The research vehicles were vertical take-off vehicles that used a single jet engine mounted on a
gimbal
A gimbal is a pivoted support that permits rotation of an object about an axis. A set of three gimbals, one mounted on the other with orthogonal pivot axes, may be used to allow an object mounted on the innermost gimbal to remain independent of ...
so that it always pointed vertically. It was adjusted to cancel 5/6 of the vehicle's weight, and the vehicle used hydrogen peroxide rockets which could fairly accurately simulate the behavior of a lunar lander.
Success of the two LLRVs led to the building of three Lunar Landing Training Vehicles (LLTVs), an improved version of the LLRV, for use by Apollo astronauts at the Manned Spacecraft Center in Houston, Texas, predecessor of NASA's
Johnson Space Center. One LLRV and two LLTVs were destroyed in crashes, but the rocket ejection seat system safely recovered the pilot in all cases.
The final phase of every Apollo landing was manually piloted by the mission commander. Because of landing site selection problems,
Neil Armstrong,
Apollo 11
Apollo 11 (July 16–24, 1969) was the American spaceflight that first landed humans on the Moon. Commander Neil Armstrong and lunar module pilot Buzz Aldrin landed the Apollo Lunar Module ''Eagle'' on July 20, 1969, at 20:17 UTC, ...
commander, said his mission would not have been successful without extensive training on the LLTVs. Selection for LLTV training was preceded by helicopter training. In a 2009 interview, astronaut
Curt Michel
Frank Curtis "Curt" Michel (June 5, 1934 – February 26, 2015) was an American astrophysicist; a professor of astrophysics at Rice University in Houston, Texas; a United States Air Force pilot; and a NASA astronaut.
Personal data
Michel w ...
stated, "For airborne craft, the helicopter was the closest in terms of characteristics to the lunar lander. So if you didn't get helicopter training, you knew you weren't going. That sort of gave it away." Even
Tom Stafford and
Gene Cernan
Eugene Andrew Cernan (; March 14, 1934 – January 16, 2017) was an American astronaut, naval aviator, electrical engineer, aeronautical engineer, and fighter pilot. During the Apollo 17 mission, Cernan became the eleventh human being to ...
did not get LLTV training for their
Apollo 10
Apollo 10 (May 18–26, 1969) was a human spaceflight, the fourth crewed mission in the United States Apollo program, and the second (after Apollo8) to orbit the Moon. NASA described it as a "dress rehearsal" for the first Moon landing, and ...
mission which was the first flight of the Lunar Module to the Moon, because NASA "didn't have plans to land on Apollo 10" so "there wasn't any point in ... training in the LLTV." Cernan only got this training after being assigned as backup commander for
Apollo 14, and in 1972 was the last to fly the LLTV while training as commander for
Apollo 17, the final landing mission.
History
Built of aluminum alloy
truss
A truss is an assembly of ''members'' such as beams, connected by ''nodes'', that creates a rigid structure.
In engineering, a truss is a structure that "consists of two-force members only, where the members are organized so that the assembl ...
es, the LLRVs were powered by a
General Electric CF700-2V turbofan engine with a
thrust
Thrust is a reaction force described quantitatively by Newton's third law. When a system expels or accelerates mass in one direction, the accelerated mass will cause a force of equal magnitude but opposite direction to be applied to that sys ...
of 4,200 lbf (19 kN), mounted vertically in a
gimbal
A gimbal is a pivoted support that permits rotation of an object about an axis. A set of three gimbals, one mounted on the other with orthogonal pivot axes, may be used to allow an object mounted on the innermost gimbal to remain independent of ...
. The engine lifted the vehicle to the test altitude and was then throttled back to support five-sixths of the vehicle's weight, simulating the reduced gravity of the Moon. Two
hydrogen peroxide
Hydrogen peroxide is a chemical compound with the formula . In its pure form, it is a very pale blue liquid that is slightly more viscous than water. It is used as an oxidizer, bleaching agent, and antiseptic, usually as a dilute solution (3%â ...
lift
rocket
A rocket (from it, rocchetto, , bobbin/spool) is a vehicle that uses jet propulsion to accelerate without using the surrounding air. A rocket engine produces thrust by reaction to exhaust expelled at high speed. Rocket engines work entirely fr ...
s with thrust that could be varied from 100 to 500 lbf (440 to 2,200 N) handled the vehicle's rate of descent and horizontal movement. Sixteen smaller hydrogen peroxide thrusters, mounted in pairs, gave the pilot control in pitch, yaw and roll.
The pilot had an
ejection seat
In aircraft, an ejection seat or ejector seat is a system designed to rescue the pilot or other crew of an aircraft (usually military) in an emergency. In most designs, the seat is propelled out of the aircraft by an explosive charge or rock ...
. On activation, it propelled the pilot upward from the vehicle with an acceleration of roughly 14 times the force of gravity for about a half second. From the ground, it was sufficient to propel the seat and pilot to an altitude of about where the pilot's parachute could be automatically and successfully deployed. Manufactured by
Weber Aircraft LLC
Zodiac Aerospace was a French aerospace group founded in 1896 that supplied systems and equipment for aircraft. It had around 100 sites across the globe and employed nearly 35,000 people. In October 2018, it was acquired by French aerospace an ...
, it was one of the first
zero-zero ejection seats, capable of saving the operator even if the aircraft was stationary on the ground, a necessity given the LLRV's low and slow flight envelope.
After conceptual planning and meetings with engineers from Bell Aerosystems, Buffalo, New York, a company with experience in vertical takeoff and landing (
VTOL
A vertical take-off and landing (VTOL) aircraft is one that can take off and land vertically without relying on a runway. This classification can include a variety of types of aircraft including helicopters as well as thrust-vectoring fixed-wi ...
) aircraft, NASA issued Bell a $50,000 study contract in December 1961. Bell had independently conceived a similar, free-flying simulator, and out of this study came the NASA Headquarters' endorsement of the LLRV concept, resulting in a $3.6 million production contract awarded to Bell on February 1, 1963, for delivery of the first of two vehicles for flight studies at the FRC within 14 months.
LLRV#1 was shipped from Bell to FRC in April. LLRV#2 was also shipped at the same time, but in parts. Because of a potential cost overrun, the FRC Director, Paul Bickle, decided to have it assembled and tested at FRC. The emphasis then was on LLRV#1. It was first readied for flight on a tilt table constructed at FRC to evaluate its engine operation without actually flying it. The scene then shifted to the old South Base area of Edwards.
The first three flights of #1 were made on October 30, 1964 by FRC's senior research test pilot,
Joe Walker. He continued to pilot a number of flights through December 1964, after which flights were shared with Don Mallick, also a FRC research pilot, and Jack Kleuver, the Army's senior helicopter test pilot. Familiarization flights were also made by NASA Manned Spacecraft Center (later Johnson Space Center) pilots Joseph Algranti and H.E. Ream.
Modifications were later made to the cockpits of both LLRVs to better simulate the actual Lunar Module. These included the addition of the LM's three-axis hand controller and throttle. A
Styrofoam
Styrofoam is a trademarked brand of closed-cell extruded polystyrene foam (XPS), commonly called "Blue Board", manufactured as foam continuous building insulation board used in walls, roofs, and foundations as thermal insulation and water barrie ...
cockpit enclosure was also added to simulate the pilot's restricted view in the LM.
The final LLRV flight at FRC took place on November 30, 1966. In December 1966, vehicle #1 was shipped to Houston, followed by #2 in January 1967. During the preceding two years, a total of 198 flights of LLRV#1 and six flights of LLRV#2 had been flown without a serious accident.
The first LLRV flight by Neil Armstrong was made in vehicle #1 on March 27, 1967 from its base at a corner of
Ellington Air Force Base
Ellington Field Joint Reserve Base is a joint installation shared by various active component and reserve component military units, as well as aircraft flight operations of the National Aeronautics and Space Administration (NASA) under the aegis ...
, the headquarters for Johnson Space Center's aircraft operations. Joe Algranti, chief of JSC's Aircraft Operations Division, and test pilot H.E. Ream also made flights that month. Both observed, as did Armstrong and the other astronauts, that if a serious control problem developed, the pilot had little choice but to eject, since the vehicle only operated to a maximum altitude of .
On May 6, 1968, Armstrong was forced to use LLRV #1's ejection seat from about altitude after a control problem, and had about four seconds on his full parachute before landing on the ground unhurt. The accident investigation board found that the fuel for the vehicle's attitude control thrusters had run out and that high winds were a major factor. As a result, the decision was made by JSC management to terminate further LLRV flights, as the first LLTV was about to be shipped from Bell to Ellington to begin ground and flight testing.
Lunar Landing Training Vehicle
Negotiations between JSC and Bell Aerosystems for three LLTVs, an improved training version of the LLRV, were initiated in October 1966 and a $5.9 million contract for three vehicles was finally signed in March 1967. In June 1968, the first vehicle was delivered by Bell to Ellington to begin its ground and flight testing by JSC's Aircraft Operations Division (AOD). AOD's head, Joe Algranti, was the principal test pilot for its first flight in August 1968. Flight testing continued until December 8, when Algranti lost control during a flight to expand the vehicle's speed envelope.
He managed to eject just three-fifths of a second before the vehicle hit the ground, the close call believed to be as a result of his attempt to regain control.
The accident investigation found that the ground controllers had elected not to monitor in real time the attitude thrusters that controlled the vehicle's yaw motion, and, at the velocity Algranti was flying, the thrusters had been overpowered by the LLTV's aerodynamic forces, causing Algranti to lose control. Due to tight cost constraints on the LLRV and LLTV, wind tunnel testing had been avoided in favor of careful flight testing for evaluation of the vehicles' aerodynamic characteristics. After reviewing the results of the crash investigation, however, it was decided that the third LLTV be loaded into NASA's
Super Guppy and flown to the
Langley Research Center in Virginia for testing in its full-scale wind tunnel. Testing was initiated on January 7, 1968 and ended one month later on February 7.
It was quickly determined that the cause of the divergence was the
Styrofoam
Styrofoam is a trademarked brand of closed-cell extruded polystyrene foam (XPS), commonly called "Blue Board", manufactured as foam continuous building insulation board used in walls, roofs, and foundations as thermal insulation and water barrie ...
cockpit enclosure. As the vehicle's sideslip angle reached minus two degrees, a yawing force rapidly built up that exceeded the ability of the yaw thrusters to counteract. The fix decided on was simply to remove the top of the enclosure, thus venting it and eliminating the excessive yawing force. It was also possible from the wind tunnel results to develop a preliminary flight envelope for the LLTV, defining its allowable maximum airspeed at various angles of angle of attack and sideslip. All this had to be verified by flight test, however, since it was not possible in the tunnel to obtain good data with the engine running.
A high level LLTV Flight Readiness Review Board was appointed on March 5, 1969 by JSC Director Dr.
Robert Gilruth
Robert Rowe Gilruth (October 8, 1913 – August 17, 2000) was an American aerospace engineer and an aviation/space pioneer who was the first director of NASA's Manned Spacecraft Center, later renamed the Lyndon B. Johnson Space Center.
He worked ...
. It consisted of him as chairman, with board members
Chris Kraft
Christopher Columbus Kraft Jr. (February 28, 1924 – July 22, 2019) was an American aerospace and NASA engineer who was instrumental in establishing the agency's Mission Control Center and shaping its organization and culture. His protégé ...
, head of Mission Operations;
George Low
George Michael Low (born Georg Michael Löw, June 10, 1926 – July 17, 1984) was an administrator at NASA and the 14th president of Rensselaer Polytechnic Institute. Low was one of the senior NASA officials who made numerous decisions as m ...
, head of JSC's Apollo Program;
Max Faget
Maxime Allen "Max" Faget (pronounced ''fah-ZHAY''; August 26, 1921 – October 9, 2004) was a Belizean-born American mechanical engineer. Faget was the designer of the Mercury spacecraft, and contributed to the later Gemini and Apollo spac ...
, JSC's Director of Engineering and astronaut
Deke Slayton
Donald Kent "Deke" Slayton (March 1, 1924 – June 13, 1993) was a United States Air Force pilot, aeronautical engineer, and test pilot who was selected as one of the original NASA Mercury Seven astronauts. He went on to become NASA's fir ...
, Director of Flight Crew Operations. The board reviewed the wind tunnel results, and on March 30 gave approval for the resumption of test flights in LLTV#2. The test program of 18 flights, all flown by H.E. Ream, was successfully completed on June 2. Hence, in the month before the Apollo 11 launch Armstrong was able to complete his LLTV flight training. He commented after his return:
In Armstrong's 2005 authorized biography ''
First Man: The Life of Neil A. Armstrong'', astronaut
Bill Anders
William Alison Anders (born 17 October 1933) is a retired United States Air Force (USAF) major general, former electrical engineer, nuclear engineer, NASA astronaut, and businessman. In December 1968, he was a member of the crew of Apollo 8, t ...
is quoted as describing the LLTV as "a much unsung hero of the Apollo Program". Although Armstrong had to eject from the LLRV, no other astronaut ever had to eject from the LLTV, and every Lunar Module pilot through the final Apollo 17 mission trained in the LLTV and flew to a landing on the Moon successfully.
LLRV#2 was eventually returned to the
Armstrong Flight Research Center, where it is on display as an artifact of the center's contribution to the Apollo program. In January 1971 LLTV#3 was destroyed while testing a major modification to the LLTV's computer system. Its test pilot, Stuart Present, was able to eject safely. The sole surviving late-model LLTV, NASA 952, is on display at the
Johnson Space Center.
Lunar Sim Mode
There were two distinct modes of flight for the LLRV and LLTV. The basic mode was with the engine fixed so that it remained 'normal' with respect to the body.
In the gimbaled "Lunar Sim Mode," the free-gimbaled
turbofan
The turbofan or fanjet is a type of airbreathing jet engine that is widely used in aircraft propulsion. The word "turbofan" is a portmanteau of "turbine" and "fan": the ''turbo'' portion refers to a gas turbine engine which achieves mechanic ...
engine was allowed to swivel and was kept pointing downward to Earth's center of mass regardless of the LLRV's attitude; this allowed the vehicle to tilt at the far greater angles that would be typical of hovering and maneuvering above the lunar surface. Despite its ungainly appearance, the LLRV was equipped with a highly sophisticated array of early sensors (mainly
Doppler radar
A Doppler radar is a specialized radar that uses the Doppler effect to produce velocity data about objects at a distance. It does this by bouncing a microwave signal off a desired target and analyzing how the object's motion has altered the fr ...
) and computational hardware. The system had no specific name, but the effect it produced was called "Lunar Sim Mode." This was the highest degree of hardware-based simulation. It was not a system to unburden the pilot, as an
autopilot
An autopilot is a system used to control the path of an aircraft, marine craft or spacecraft without requiring constant manual control by a human operator. Autopilots do not replace human operators. Instead, the autopilot assists the operator' ...
does, nor was it meant to introduce any sort of safety or economy.
Lunar Sim Mode can also be thought of as a mixture of stability augmentation, recalculation of vertical acceleration according to the lunar gravity constant, all followed by accompanied instantaneous corrective action. The LLRV's Lunar Sim Mode was even able to correct for wind gusts within milliseconds, as they would have disturbed the impression of a missing atmosphere.
FRC test pilot Don Mallick's comments following the vehicle's first flight in the lunar simulation mode illustrate the experience of piloting the LLRV:
Deke Slayton
Donald Kent "Deke" Slayton (March 1, 1924 – June 13, 1993) was a United States Air Force pilot, aeronautical engineer, and test pilot who was selected as one of the original NASA Mercury Seven astronauts. He went on to become NASA's fir ...
, then NASA's
Chief Astronaut, later said there was no way to simulate a Moon landing except by flying the LLRV.
Specifications (LLRV)
Control system
The electronic control system for the Lunar Landing Training Vehicle was developed for
NASA
The National Aeronautics and Space Administration (NASA ) is an independent agencies of the United States government, independent agency of the US federal government responsible for the civil List of government space agencies, space program ...
by
Bell Aerosystems, Inc. which had engineering facilities located in
Niagara Falls
Niagara Falls () is a group of three waterfalls at the southern end of Niagara Gorge, spanning the border between the province of Ontario in Canada and the state of New York in the United States. The largest of the three is Horseshoe Fall ...
,
New York. The LLTV was a second generation vehicle, after the Lunar Landing Research Vehicle, used by NASA Apollo Program astronauts to develop piloting skills. The LLTV provided
Apollo program commanders the opportunity to experience the flight characteristics associated with the 1/6 gravity conditions on the Moon. The first LLTV vehicle was assembled at Ellington Airforce Base in Houston, Texas in 1967. Three LLTV vehicles were eventually delivered to Ellington AFB. The last remaining of the three LLTV vehicles is on display at the Johnson Spacecraft Center in Houston, Texas.
The electronic control system was designed with redundant channels that used 2 of 2 logic. The outputs of each primary channel were compared on a continuous basis. If a fault was detected in the primary control system, then control was automatically switched to an identical backup channel and the pilot immediately took measures to bring the vehicle to the ground. All the controls were analog circuits utilizing
Burr-Brown transistor amplifier modules and other analog components.
Aircraft on display
Two of the five vehicles survive. LLRV-2 is on display at the Air Force Flight Test Museum at
Edwards Air Force Base.
It was lent to the museum by NASA in 2016.
LLTV-3 (LLTV NASA 952) is on display at the
Johnson Space Center.
Another vehicle, a replica of NASA 952, is in a partially complete state in the
aircraft boneyard at the
Yanks Air Museum
The Yanks Air Museum is a non-profit 501 (c)(3) organization and museum dedicated to exhibiting, preserving and restoring American aircraft and artifacts in order to show the evolution of American aviation, located at Chino Airport in Chino, Cal ...
.
See also
References
External links
LLRV/TV flight summary (sci.space.history post)LLTV FRRB transcriptConference videofrom meeting where 4 Moon walkers discuss the value of the LLTV
Neil Armstrong presentation on LLRV/TV(video from the 51st
SETP Symposium)
{{Bell Aircraft
Apollo program hardware
Bell aircraft
Mixed-power aircraft
NASA aircraft
Rocket-powered aircraft
1960s United States experimental aircraft
VTOL aircraft
Aircraft related to spaceflight
Aircraft first flown in 1964