A fleet of steam powered robots could one day be used to explore the moons of Jupiter and Saturn by ‘taking giant leaps across their frozen landscapes’.
NASA Jet Propulsion Laboratory researchers are developing small football sized spherical robots equipped with steam powered thrusters for future exploration.
If they ever move beyond the initial concept stage the robots would let scientists explore icy moons such as Europa and Enceladus orbiting Jupiter and Saturn.
These moons are thought to harbour salty subsurface oceans of liquid water but Very little is known about their surface – making it a potentially challenging terrain for a traditional moon rover – but easy for a leaping robotic ball powered by steam.
The bots, called SPARROW, would run on steam from ice that was collected by mining the surfaces of the moons they explore – rather than ‘dirty’ rocket fuel.
NASA Jet Propulsion Laboratory researchers are developing small football sized spherical robots equipped with steam powered thrusters for future exploration – they would be supported by a lander that would mine the surface for ice to power the robot
The robots will let scientists to explore the icy moons of gas giants such as Europa, Enceladus and Titan – which may harbour salty liquid oceans under their surface
This is just a theoretical idea at the moment, no robot has actually been built and the study of how it would work has been through computer simulations but researchers hope they will one day be used in a mission to these distant frozen moons.
The Steam Propelled Autonomous Retrieval Robots for Ocean Worlds (SPARROW) devices would be used to make large hops across the icy terrains found on Jupiter’s moon Europa and Saturn’s moon Enceladus.
Both are thought to host vast subsurface oceans of salty water under a thick ice crust, according to astronomers who have studied images of the moons.
While that makes them fascinating for scientific study, the little we know about their surfaces could also make navigating them especially challenging, NASA said.
SPARROW robots would be about the size of a soccer ball and include a system of thrusters, avionics and instruments encased in a protective spherical cage.
In the sort of low-gravity environment found on those distant icy moons, there’d be no atmospheric drag to slow it down, according to the NASA team.
This would enable SPARROW to take hops of many miles over landscapes that other robots would have difficulty navigating.
‘The terrain on Europa is likely highly complex,’ said Gareth Meirion-Griffith, JPL roboticist and the lead researcher of the concept.
‘It could be porous, it might be riddled with crevasses, there might be meters-high penitentes’ – long blades of ice known to form at high latitudes on Earth – ‘that would stop most robots in their tracks,’ he said.
‘But SPARROW has total terrain agnosticism; it has complete freedom to travel across an otherwise inhospitable terrain.’
This is just a theoretical idea at the moment, no robot has actually been built and the study of how it would work has been through computer simulations but researchers hope they will one day be used in a mission to these distant frozen moons
The Steam Propelled Autonomous Retrieval Robots for Ocean Worlds (SPARROW) devices would be used to make large hops across the icy terrains found on Jupiter’s moon Europa and Saturn’s moon Enceladus
The concept depends on a lander serving as the home base for SPARROW that would mine the ice and melt it down before loading it into the hopping robot.
SPARROW would then heat the water inside its engines, creating bursts of steam to give a boost off the surface, according to its developers.
When low on fuel, the hopping bot would return to the lander for a top up while also dropping off any scientific samples for further analysis.
To maximise the science investigations that could be done, many SPARROWs could be sent together, swarming around a specific location.
They could also be split up to explore as much alien terrain as possible.
In 2018, SPARROW was awarded Phase I funding by the NASA Innovative Advanced Concepts (NIAC) program, which nurtures visionary ideas that could, someday, be used in future space missions.
SPARROW robots would be about the size of a soccer ball and include a system of thrusters, avionics and instruments encased in a protective spherical cage
Phase I studies explore the overall viability of the idea and advance the Technology Readiness Level – in anticipation of bidding for Phase II funding.
For SPARROW, the Phase I funding allowed the development and testing of different water-based propellant systems that could be used to produce steam in the most efficient way.
Additionally, the SPARROW team was able to better understand how the spherical robot might tumble when landing on chaotic icy terrain by using computer simulations, thereby identifying the most efficient angle of launch and speed of hop.
‘From this, and related propulsion calculations, we were able to determine that a single long hop would be more efficient that several smaller hops,’ they said.
WHAT DO WE KNOW ABOUT EUROPA AND WHY IS IT SO SPECIAL?
Jupiter’s icy moon Europa is slightly smaller than Earth’s moon.
Europa orbits Jupiter every 3.5 days and is tidally locked – just like Earth’s Moon – so that the same side of Europa faces Jupiter at all times.
It is thought to have an iron core, a rocky mantle and a surface ocean of salty water, like Earth.
Unlike on Earth, however, this ocean is deep enough to cover the whole surface of Europa, and being far from the sun, the ocean surface is globally frozen over.
Many experts believe the hidden ocean surrounding Europa, warmed by powerful tidal forces caused by Jupiter’s gravity, may have conditions favourable for life.
Nasa scientists are on the verge of exploring Jupiter’s ocean moon Europa for signs of alien life.
Europa is our best shot of finding biological life in the solar system, researchers say.
The space agency is priming two probes, including one that will land on its surface, to explore the distant moon in detail within the next decade, the agency says.