Out of this world! NASA will launch a huge flying saucer-like inflatable heat shield into space THIS WEEK – and it could help humans land safely on Mars one day
- The Low-Earth Orbit Flight Test of an Inflatable Decelerator (LOFTID) is scheduled for launch on Wednesday
- NASA’s test will see a huge 20ft inflatable heat shield launched into low Earth orbit on an Atlas V rocket
- Once it reaches low-Earth orbit, the heat shield will inflate before descending back to the Earth’s surface
- In the future, the heat shield could be used to slow down a spacecraft to survive atmospheric entry on Mars
If humans are to one day land safely on Mars, engineers are going to have to invent a spacecraft that can slow down enough to survive atmospheric entry.
Known as the ‘seven minutes of terror’, in 2021 NASA’s Perseverance rover emerged unscathed after making its descent to the Red Planet using a basic parachute.
But the landing process is trickier for larger payloads, such as rockets with humans on board.
Thankfully, the US space agency may have a solution to the problem, in the form of a large flying saucer-like inflatable heat shield which will be launched to low-Earth orbit this week.
Once there, the Low-Earth Orbit Flight Test of an Inflatable Decelerator (LOFTID) will inflate, before descending back to Earth.
NASA hopes the test will demonstrate how the heat shield can act as a giant brake to slow down a future Mars spacecraft.
The technology is scheduled to launch on a United Launch Alliance Atlas V rocket on Wednesday (November 9) from Vandenberg Space Force Base in California, alongside a JPSS-2 polar-orbiting weather satellite.
If humans are to one day land safely on Mars, engineers are going to have to invent a spacecraft that can slow down enough to survive atmospheric entry. Thankfully, the US space agency may have a solution to the problem in the form of a large flying saucer-like inflatable heat shield which will be launched to low-Earth orbit this week
Once there, the Low-Earth Orbit Flight Test of an Inflatable Decelerator (LOFTID) will inflate, before descending back to Earth
If the test is a success, it could prove crucial in helping NASA reach its ambitious goal of launching humans to the Red Planet in the next decade
What is LOFTID?
On Wednesday (November 9), NASA will demonstrate new heat shield technology for the first time from low-Earth orbit in the form of its Low-Earth Orbit Flight Test of an Inflatable Decelerator (LOFTID).
The heat shield will launch into space on board a United Launch Alliance Atlas V rocket, alongside a JPSS-2 polar-orbiting weather satellite.
Once JPSS-2 reaches orbit, the heat shield will inflate and be put on a re-entry trajectory from low-Earth orbit to test its ability to slow down and survive re-entry.
Once JPSS-2 reaches orbit, the heat shield will inflate and be put on a reentry trajectory from low-Earth orbit to test its ability to slow down and survive re-entry.
If the test is a success, it could prove crucial in helping NASA reach its ambitious goal of launching humans to the Red Planet in the next decade.
‘This technology could support landing crew and large robotic missions on Mars, as well as returning heavier payloads to Earth,’ the US space agency added.
When it comes to destinations with atmospheres – including Mars, Venus, Titan, and Earth – one of the key challenges NASA faces is how to deliver heavy payloads.
As it stands, current rigid aeroshells are constrained by the size of a rocket’s shroud – its streamlined protective covering.
For example, you may remember the ‘seven minutes of terror’ as NASA’s Perseverance rover used a parachute to descend to the Martian surface last year.
Radio signals sent from NASA and vice versa take 10 minutes for either party to make contact, so after the ground team told Perseverance to descend, the rover took over and made the epic journey completely alone.
The spacecraft shot through Mars’ atmosphere moving at 12,000 miles per hour, but then had to slow down to zero miles per hour seven minutes later in order to land safely on the surface.
As a spacecraft enters an atmosphere, aerodynamic drag helps to slow it down.
However, Mars’ atmosphere is a lot less dense than Earth’s, which provides an extreme challenge for aerodynamic deceleration.
‘The atmosphere is thick enough to provide some drag, but too thin to decelerate the spacecraft as quickly as it would in Earth’s atmosphere,’ NASA explained.
The agency’s solution to this problem is a 20ft-wide heat shield which would be deployed in the upper reaches of atmosphere, allowing a spacecraft to decelerate early while experiencing less intense heating.
It will become the largest blunt body aeroshell to ever go through atmospheric entry during this week’s test.
After delivery of the primary payload, the polar-orbiting weather satellite, LOFTID will be released to reenter Earth’s atmosphere.
It will decelerate from hypersonic, more than 25 times faster than the speed of sound, down to subsonic flight, less than 609 miles per hour.
NASA hopes the test will demonstrate how the heat shield can act as a giant brake to slow down a future Mars spacecraft
The heat shield will launch into space on board a United Launch Alliance Atlas V rocket, alongside a JPSS-2 polar-orbiting weather satellite
If the test is a success, it could prove crucial in helping NASA reach its ambitious goal of launching humans to the Red Planet in the next decade
Throughout the flight, a realtime beacon periodically transmits limited data while sensors and cameras acquire a more comprehensive data set that is stored on an internal data recorder and an ejectable data recorder that is jettisoned and recovered after reentry.
LOFTID will deploy a parachute to allow a soft splash down and will be retrieved from the Pacific Ocean.
NASA said the demonstration is poised to ‘revolutionise’ the way it delivers payloads to planetary destinations with atmospheres.
It added that the inflatable decelerator technology is scalable to both crewed and large robotic missions to Mars.
NASA plans to send a manned mission to Mars in the 2030s after first landing on the Moon
Mars has become the next giant leap for mankind’s exploration of space.
But before humans get to the red planet, astronauts will take a series of small steps by returning to the moon for a year-long mission.
Details of a the mission in lunar orbit have been unveiled as part of a timeline of events leading to missions to Mars in the 2030s.
Nasa has outlined its four stage plan (pictured) which it hopes will one day allow humans to visit Mars at he Humans to Mars Summit held in Washington DC yesterday. This will entail multiple missions to the moon over coming decades
In May 2017, Greg Williams, deputy associate administrator for policy and plans at Nasa, outlined the space agency’s four stage plan that it hopes will one day allow humans to visit Mars, as well as its expected time-frame.
Phase one and two will involve multiple trips to lunar space, to allow for construction of a habitat which will provide a staging area for the journey.
The last piece of delivered hardware would be the actual Deep Space Transport vehicle that would later be used to carry a crew to Mars.
And a year-long simulation of life on Mars will be conducted in 2027.
Phase three and and four will begin after 2030 and will involve sustained crew expeditions to the Martian system and surface of Mars.
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