Skip to main content

How NASA’s VIPER rover will tackle the problem of moon dust

NASA is preparing to send astronauts back to the moon by 2024 as part of the Artemis program. But there’s one challenge of lunar exploration we haven’t solved yet: How to deal with moon dust.

The surface of the moon is covered in loose soil, also known as regolith, which kicks up clouds of dust whenever anything is moved over it. This dust gets everywhere and sticks to absolutely everything, because of the ultraviolet radiation from the sun which positively charges dust particles and makes them sticky. The particles also remain sharp due to the lack of wind erosion, making them abrasive.

Recommended Videos

This dust can gum up electronics and stop them from working, and may be dangerous to the health of astronauts. NASA has been searching for solutions to this issue for years, and now it has a strategy for dealing with the dust when it comes to its newest lunar rover, the Volatiles Investigating Polar Exploration Rover, or VIPER, which will hunt for water on the moon from 2023 ahead of the arrival of Artemis astronauts.

Robotics engineer Jason Schuler performs a preliminary test to prepare for dust testing of various seals for the wheel motors on NASA’s Volatiles Investigating Polar Exploration Rover, or VIPER
Researchers at NASA’s Kennedy Space Center are testing the various types of seals for electric motors that drive the Volatiels Investigating Polar Exploration Rover, or VIPER, wheels at Swamp Works. NASA

One of the challenges for VIPER is that the engineers aren’t sure what type of dust it will encounter — whether it will be light and fluffy or compacted and heavy. Therefore, the rover is designed to be highly maneuverable, able to drive sideways and diagonally, and this agility means it can cope with different surfaces.

Please enable Javascript to view this content

To test out dust protection, the engineers took one of the rover’s wheels and placed it in a “dust chamber,” an open-topped acrylic box which is full of simulated dust and fans to blow it about. The wheel was protected by a flexible covering which acts as heat insulation and dust protection, then the fans were turned on and moved to simulate the worst possible conditions for dust.

Once the test was over, the engineers found that there was dust all over the outer covering, but none had managed to penetrate to the inside of the rover wheel. This suggests that the covering may be effective at protecting the delicate electronics inside the rover from the abrasive dust. As further protection against dust, the team is also testing out various different types of seals for the wheels’ electrical motors.

Georgina Torbet
Georgina has been the space writer at Digital Trends space writer for six years, covering human space exploration, planetary…
How NASA is using AI on the Perseverance rover to study Mars rocks
akdjf alkjdhf lk

Space engineers have been using AI in rovers for some time now -- hence why today's Mars explorers are able to pick a safe landing site and to drive around a region autonomously. But something they haven't been able to do before now is to do science themselves, as most of that work is done by scientists on Earth who analyze data and point the rover toward targets they want to investigate.

Now, though, NASA's Perseverance rover is taking the first steps toward autonomous science investigation on Mars. The rover has been testing out an AI capability for the last three years, which allows it to search for and identify particular minerals in Mars rocks. The system works using the rover's PIXL instrument (Planetary Instrument for X-ray Lithochemistry), a spectrometer that uses light to analyze what rocks are made of. The software, called adaptive sampling, looks though PIXL's data and identifies minerals to be studied in more detail.

Read more
NASA’s mega moon rocket has just begun a 900-mile journey
The core stage of NASA's SLS rocket.

NASA’s powerful Space Launch System (SLS) rocket is set to blast four astronauts to space next year on the epic Artemis II mission that will come within about 80 miles of the lunar surface.

In preparation for the mission, the rocket’s 213-foot-tall (65 meters) core stage has just embarked on a rather more leisurely journey -- on a barge heading for the Kennedy Space Center in Florida.

Read more
NASA axes its moon rover project VIPER
NASA’s VIPER – short for the Volatiles Investigating Polar Exploration Rover – sits assembled inside the cleanroom at the agency’s Johnson Space Center.

NASA’s VIPER -- short for the Volatiles Investigating Polar Exploration Rover -- sits assembled inside the cleanroom at the agency’s Johnson Space Center. NASA

NASA has announced it is scrapping its plans to send a rover to the moon. The Volatiles Investigating Polar Exploration Rover, or VIPER, project was intended to search the moon's polar regions for water, but will now be shelved due to budget issues. Originally slated to land on the moon in December 2022, the project had been delayed several times, and the most recent update was that it would not be ready until September 2025.

Read more