But inside the nine-meter (30 feet) high facility, below the ink-black ceiling and walls, is a replica of the soil that covers the lunar surface.
Craters and lumps ripple in and out of darkness under the stark light of a sole lamp at one end of the 700-square-meter area—the equivalent of more than three tennis courts.
The terrain is strewn with rocks and smothered in a strange pale-gray dust.
ESA astronaut Matthias Maurer described walking through the environment wearing a space suit.
"When you're entering the black area and you have the sunlight in front of you," it can be difficult to find your way around, Maurer told journalists during a recent tour of the facility.
"Is this just a shallow pit or is this an abyss?"
Difficult dust
Maurer, a materials scientist, has served as astronaut advisor for LUNA over the last decade.
"It's a unique facility because it integrates so many different elements that nobody else around the globe has, not even NASA," he said.
For LUNA, the ESA developed and produced 900 tonnes of its own lunar regolith, the thick layer of dust that covers the moon's surface.
To the touch, the simulated moon dust called EAC-1A is rough as pumice stone—yet also very fine.
This combination makes it dangerous to breathe, and can cause equipment problems.
When stepped on, the dust rises and "keeps on floating," Maurer said.
Real lunar soil causes even more problems because it is charged with static electricity, which makes it stick to nearby surfaces.
Because of this problem, astronauts on NASA's Apollo missions more than 50 years ago feared for the integrity of their spacesuits after just a few lunar walks.
On the moon, this powdery dust is the result of repeatedly being hit by asteroids.
But the simulated regolith is "a basaltic volcanic material that is grinded and sieved to our needs and then mixed," the ESA's LUNA project manager Juergen Schlutz said.
The engineers are still waiting on a delivery of 20 tonnes of regolith from Greenland, which will be used in the "dust laboratory," a hermetically sealed space inside LUNA for testing equipment.
The facility will also soon be home to a roving artificial sun, which will cast changing shadows across the terrain.
An intricate harness system controlled from the top of the facility will allow astronauts to experience the bouncy gravity on the moon, which has around 17 percent of Earth's gravity.
LUNA's floor will also be able to be frozen to a depth of three meters.
This will let astronauts practice drilling into the frozen lunar ground in search of water ice, Maurer explained.
'Live and work on the moon'
In one corner, a tilting panel will test how astronauts handle slopes of up to 50 degrees.
This can be tricky, because first steps on the lunar soil can sometimes sink in ankle-deep, making it similar to climbing a sand dune.
"And after a hard day of eight hours walking on the moon, you go into FLEXHab," Maurer said.
The Future Lunar Exploration Habitat (FLEXHab), designed to house four astronauts, will be connected to LUNA within a week.
The astronauts will use a watertight airlock to stop lunar soil from getting into their home.
The facility will also be connected to a closed-loop greenhouse called LUNA, which has been shown to be able to grow vegetables during a five-year stint in Antarctica.
Altogether, this ecosystem should make it possible to "understand how to live and work on the moon," Schlutz said.
It is also hoped to help secure places for European astronauts on NASA's Artemis program, which plans to return humans to the surface of the moon later this decade.
Maurer, a potential candidate for an Artemis spot, said that "stepping on the moon in Cologne" means that "one foot is already on the moon".
© 2024 AFP