Mobile Launcher Platform

Mobile Launcher Platform parked near the Vehicle Assembly Building

The Mobile Launcher Platform (MLP) is one of three two-story structures used by NASA at the Kennedy Space Center to support the Space Shuttle stack throughout the build-up and launch process: during assembly at the Vehicle Assembly Building (VAB), while being transported to Launch Pads 39A and B, and as the vehicle's launch platform. NASA's three MLPs were originally constructed for the Apollo program to launch the Saturn V rockets in the 1960s and 1970s, and remained in service through the end of the shuttle program in 2011 with alterations.^{[citation needed]}

Apollo

The Saturn V "stack" for the Apollo 11 moon landing mission moves up the ramp toward its launch site on the Mobile Launcher, carried by the crawler-transporter

The MLP was constructed for transporting and launching the Saturn V rocket for the Apollo program lunar landing missions of the 1960s and 1970s. Each MLP originally had a single exhaust vent for the Saturn V's engines. The MLPs also featured a 120 m (380 ft) Launch Umbilical Tower (LUT) with nine arms that permitted servicing of the vehicle on the launch pad, and swung away from it at launch. For Skylab and Apollo-Soyuz, MLP No. 1 was modified with a so-called "milkstool" pedestal that allowed the shorter Saturn IB rocket to use the Saturn V tower and service arms, and Saturn V Ground Support Equipment (GSE) was removed or de-activated and Saturn IB GSE equipment was installed.^{[citation needed]}

Space Shuttle

Space Shuttle Atlantis atop the Mobile Launcher Platform and crawler-transporter

Water is released onto the mobile launcher platform on Launch Pad 39A at the start of a rare sound suppression system test in 2004. During launch, 1,100,000 litres (300,000 US gal) are poured onto the pad in only 41 seconds.

After the Apollo program, the launcher platforms were modified for the Space Shuttle (Space Transport System). The umbilical towers from Mobile Launchers 2 and 3 were removed. Portions of these tower structures were erected at the two launch pads, 39A and 39B. These permanent structures are now known as the Fixed Service Structures (FSS). The umbilical tower from Mobile Launcher 1 (which was the platform used for the most significant Apollo missions) was taken apart and stored in the Kennedy Space Center's industrial area. Efforts to preserve it in the 1990s failed, however, for lack of funding and it was scrapped.^{[citation needed]}

In addition to removal of the umbilical towers, each Shuttle-era MLP was extensively reconfigured with the addition of two Tail Service Masts, one on either side of the Main Engine exhaust vent. These 9.4 m (31 ft) masts contained the feed lines through which liquid hydrogen (LH₂) and liquid oxygen (LOX) were loaded into the shuttle's external fuel tank, as well as electrical hookups and flares that were used to burn off any ambient hydrogen vapors at the launch site immediately prior to Main Engine start.^{[citation needed]}

The Space Shuttle Main Engines (SSMEs) vented their exhaust through the original opening used for the Saturn rocket exhaust. Two additional exhaust ports were added to vent exhaust from the Solid Rocket Boosters that flanked the external fuel tank.

The Space Shuttle assembly was held to the MLP at eight holddown points using large studs, four on the aft skirt of each Solid Rocket Booster. Immediately before SRB ignition, frangible nuts attached to the top of these studs were detonated, releasing the Shuttle assembly from the platform.^{[citation needed]}

When NASA began launching Shuttle missions, it became clear that the MLP might inadvertently pose a danger to the crew or the vehicle, due to the possibility of massive acoustic shock waves bouncing off the platform and hitting the Shuttle as it lifted off. This was true for the Saturn V launches as well, but there was less risk because the Apollo spacecraft, atop the 111 m (363 ft) stack, was much farther away from the engines. Because the Shuttle was about half the height of the Saturn, the crew cabin and payload bay were much closer to the platform, and much more vulnerable to the tremendous forces bouncing back off the MLP - on the first mission, STS-1, the shock waves damaged many of the protective thermal tiles.^{[citation needed]}

NASA's solution to this danger was to cushion the MLP at every launch with a flood of flowing water. Starting 6.6 seconds before engine ignition, a 1,100,000-litre (300,000 US gal) water tank at the launch site began dumping water down a pipeline and into the exhaust vents of the MLP. Next, six 3.7 m (12 ft)-high towers known as "rainbirds" began to spray water over the MLP and into the flame deflector trenches below it. The water absorbed some of the bruising forces of the acoustic waves, and discouraged fires that might be caused by the rocket exhaust. This water-dumping mechanism, known as the Sound Suppression System, emptied the launch pad tank in around 41 seconds.^[1] The giant white clouds that billowed around the shuttle at each launch were not smoke, but water vapor generated as the rocket exhaust boiled away huge quantities of water.^[2] The suppression system reduced the acoustic sound level to approximately 142 dB.

Capabilities

An MLP being carried by a crawler-transporter

Each MLP weighs 3,730,000 kg (8,230,000 lb) unloaded and roughly 5,000,000 kg (11,000,000 lb) with an unfueled Shuttle aboard, measures 49 by 41 m (160 by 135 ft), and is 7.6 m (25 ft) high. It was carried by a crawler-transporter, which measures 40 by 35 m (131 by 114 ft), and is 6.1 m (20 ft) high. Each crawler weighs about 3,000,000 kg (6,000,000 lb) unloaded, has a maximum speed of about 1.6 km (1 mi) per hour loaded, and has a leveling system designed to keep the launch vehicle vertical while negotiating the 5 percent grade leading to the top of the launch pad. Two 2,050 kW (2,750 hp) diesel engines power each crawler.^[3]

Originally designated the "Mobile Launcher",^[4] the MLP was designed as part of NASA's strategy for vertical assembly and transport of space vehicles. Vertical assembly allows the preparation of the spacecraft in a ready-for-launch position, and avoids the additional step of lifting or craning a horizontally-assembled vehicle onto the launchpad (as the engineers of the Soviet space program chose to do).

The Mobile Launcher Platform was set atop six legs, each 6.7 m (22 ft) tall, when stationary. The Solid Rocket Boosters were mounted on top of the MLP. The External Tank was then lowered between the two boosters and attached to them. After that, the orbiter was lowered into position and attached to the External Tank. The crawler-transporter then carried the combined platform and vehicle to the launch site, and deposited them there together. Once the launch was completed, the crawler-transporter retrieved the empty MLP from the pad to be readied for its next use.^{[citation needed]}

Constellation

Ares I Mobile Launcher Platform and crawler-transporter at east park site

With the retirement of the Shuttle in 2011 and its planned replacement Orion spacecraft and launcher in the design and test phase, NASA converted LC-39B from Shuttle operations to support Orion launches. The Ares I-X suborbital mission utilized MLP 1, the same MLP used for Apollo 11, to support the stacking and launch operations. The cancelled Ares I-Y would have used the same MLP.^{[citation needed]}

Starting with Orion 1, NASA would have utilized one new MLP,^[5] designed by ASRC Aerospace (under the University-Affiliated Spaceport Technology Development Contract [USTDC]) that would have supported the "stick-like" Orion-Ares I configuration, its launch umbilical tower, and escape equipment. At a weight of about 4,300 t (9,500,000 lb), the new MLPs would have allowed NASA to utilize the crawler-transporters in their current configuration.^{[citation needed]}

The existing Apollo and Shuttle MLPs, after the retirement of the Shuttle, were to be overhauled and modified, along with LC-39A, for support of the canceled Ares V rocket, the Altair spacecraft, and its launch umbilical tower. The three exhaust ports, in a triangular arrangement (due to the "piggyback" nature of the Shuttle stack) would have been modified for the in-line nature of the Ares V, and the compartments would have been strengthened to support the heavier weight of the launch vehicle. At the same time, NASA would have either modified the existing crawler-transporters or constructed replacements, that would have allowed them to carry both an Orion-Ares I and Altair-Ares V stack from the Vehicle Assembly Building to their respective launch pads had lunar landing missions begun.^{[citation needed]}

Space Launch System

The MLP that was built to launch the Ares I rocket will be modified to support the Space Launch System. The mobile launcher will have to be altered in order to support the heavier weight and additional thrust of the heavy lift rocket. The biggest modifications to the MLP will be on the platform's base, where engineers will increase the size of a 2.0 m² (22 sq ft) exhaust duct to a rectangle stretching 18.3 by 9.1 m (60 by 30 ft) and strengthen the surrounding structure. The SLS will weigh more than twice as much as the planned Ares I rocket. The Ares 1 rocket would have featured a single solid-fueled first stage, while the Space Launch System will include two large solid rocket boosters (SRBs) and a powerful core with up to five Space Shuttle Main Engines (SSME). The modifications are expected to be complete by 2016.^{[citation needed]}

Proposed disassembly and sale

In 2013, NASA decided to sell the three Apollo-era 3,730,000 kg (8,230,000 lb) Mobile Launcher Platforms, but not the 4,100 kW (5,500 hp) crawler-transporters that carried the MLPs from the Vehicle Assembly Building to the launch pads. The purchaser is responsible for disassembly, packaging and transport of the material away from the space center. NASA accepted bids until September 6, 2013.^[6]

Launch history

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References

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External links

Media related to Lua error in package.lua at line 80: module 'strict' not found. at Wikimedia Commons

Virtual tour of the Space Launch System Mobile Launcher

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v t e NASA Space Shuttle (STS)
Space Shuttle Programs Missions Crews
Parts	Orbiter Vehicle (OV) Solid Rocket Booster (SRB) External Tank (ET) Main Engine (SSME) Orbital Maneuvering System (OMS) Reaction control system (RCS) Thermal protection system Booster separation motor	94px
Orbiters	Enterprise Columbia Challenger Discovery Atlantis Endeavour
Add-ons	Spacelab (ESA) RMS (CSA) Extended Duration Orbiter Remote Controlled Orbiter Spacehab MPLM
Sites	Kennedy Space Center LC-39 Vandenberg SLC-6 Landing sites (Abort Landing Sites)
Operations	Missions (canceled) Crews Mission timeline rollbacks Abort modes Rendezvous pitch maneuver
Testing	Pathfinder (simulator) MPTA MPTA-ET Approach and Landing Tests
Disasters	Challenger disaster (report) Columbia disaster (report)
Support	Crawler-transporter Shuttle Carrier Aircraft Orbiter Processing Facility NASA recovery ship Shuttle Training Aircraft Shuttle Avionics Integration Laboratory (SAIL) Mate-Demate Device
Special	Deutschland-1 Getaway Special Teacher in Space Project Shuttle-Mir Hitchhiker
Derivatives	Saturn-Shuttle (canceled) Shuttle-Derived Launch Vehicle (SDLV) Shuttle-Derived Heavy Lift Launch Vehicle (HLLV) Jupiter Shuttle-C Ares Space Launch System (SLS)
Replicas	America Independence (formerly Explorer) Inspiration
Related	Space Shuttle design process Inertial Upper Stage Payload Assist Module ISS Space Shuttle retirement Conroy Virtus Criticism of the Space Shuttle program

v t e Apollo program hardware
Launch vehicles	Little Joe II Saturn I Saturn IB Saturn V
Launch vehicle components	F-1 engine J-2 engine Instrument unit Saturn Launch Vehicle Digital Computer
Spacecraft	Apollo (spacecraft) Apollo command and service module Columbia Apollo Lunar Module
Spacecraft components	Apollo Abort Guidance System Apollo Docking Mechanism Apollo Guidance Computer Primary guidance, navigation, and control system Apollo Telescope Mount Apollo TV camera Descent propulsion system Ascent propulsion system Scimitar antenna
Space suits	Apollo/Skylab A7L Beta cloth
Lunar surface equipment	Portable Life Support System Lunar Roving Vehicle Lunar Laser Ranging experiment Solar Wind Composition Experiment Apollo Lunar Surface Experiments Package Apollo 12 Passive Seismic Experiment Apollo 14 Passive Seismic Experiment Charged Particle Lunar Environment Experiment Modular Equipment Transporter
Ground support	Mobile Launcher Launch umbilical tower Crawler-transporter Lunar Landing Research Vehicle Mobile quarantine facility
Ceremonial	Lunar plaque Lunar Flag Assembly Fallen Astronaut Apollo 11 goodwill messages
Related	Lunar escape systems
Category:Apollo program hardware

Mobile Launcher Platform

Contents

Apollo

Space Shuttle

Capabilities

Constellation

Space Launch System

Proposed disassembly and sale

Launch history

References

External links

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