An astronaut has not stepped on it for 48 years. However, today we know that it has ice water and resources that can be used by the industry, and the interest to return to it grows without ceasing. Visiting it will also be a necessary step before sending a crew to Mars.
Konstantin Tsiolkovski, a 19th-century Russian physicist known for his advanced ideas about space flight, wrote: “Earth is the cradle of humanity, but we cannot stay in the cradle forever.” A few decades after his prophetic words, in 1969, two American astronauts, Neil Armstrong and Buzz Aldrin, set foot on the surface of another world, the Moon. In the next three years, another ten men visited, but soon after the interest in our satellite waned, and the Apollo program, in which these missions were framed, came to an end.
At that time, the confrontation between the United States and the Soviet Union had fueled the so-called space race. Today, more and more companies are participating in this field; Advances in satellite design, cheaper rockets and the possibility of reusing them have opened the doors of heaven. “Never before has the industry been so involved in this matter,” says Phil Larson, a former adviser to SpaceX and a space policy during the Barack Obama presidency. And he adds -: In the coming years, this sector will grow enormously and will include many new players ”.
At present, Europe, Japan, India or China have their own space programs. What’s more, national agencies already rely on an army of companies, some of which promise to send tourists and robots to the Moon and build their own ships and bases. Thus, the Japanese tycoon Yusaku Maezawa plans to circle the Moon in 2023 aboard a ship built by SpaceX. Blue Origin, for its part, works on a lander called Blue Moon capable of carrying loads to its surface; and another company, Bigelow, is designing moon bases from inflatable structures.
In this context, US President Donald Trump announced an ambitious plan: send two astronauts – this time, a man and a woman – to the satellite in 2024. Four years later, a sustainable exploration of the same would begin, with the participation of companies and other partner countries. Of course, the Committee on Science, Space and Technology of the US House of Representatives believes that it is more realistic to delay the adventure until 2028.
However, on this occasion, contrary to what happened a few decades ago, astronauts will not go to the moon to plant the flag and do a few experiments. “This time we will stay,” says Clive R. Neal, a geologist and lunar scientist at the University of Notre Dame (Indiana). On-site resources will be harnessed “to use them in construction, to obtain air, water and rocket fuel,” he stresses.
Flight tests with life-size models of the Orion spacecraft have already been carried out at NASA’s Johnson Space Center.
The Moon is deserted, but in a few years, it will be quite a crowded place, regularly visited by robots and astronauts from various countries. According to science journalist Leonard Davis, author of the work Moon Rush. The New Space Race, China will have a lot to say in this regard. “The Chinese have a good plan and they are developing it methodically,” Davis says. For now, the Asian giant is focused on building a major space station in 2022. Even so, it plans to launch the Chang’e 5 mission this year, which aims to send a vehicle to the Procellarum basin, on our satellite., to collect two kilos of samples and bring them back to Earth. If all goes well, two years later, the Chang’e 6 will do the same in the Aitken basin, at the south pole. Later, the seventh and eighth will serve to prepare the dispatch of a manned flight, in the 2030s.
The Moon will be used as a spaceport. The technologies necessary to explore the rest of the solar system will be developed there.
Other nations have their own projects. Russia prepares the Luna 25 mission for 2021. It’s objective: to explore lunar resources. That same year, NASA will test an experimental lander, which will test its ability to send humans there. Already in 2022, the Orion capsule, in which the astronauts will travel to the satellite two years later, will carry out an unmanned flight. During this time, the European Space Agency (ESA) will collaborate with the United States and those of Russia, Canada and Japan in an ambitious lunar exploration program that will be developed over the next decade.
By then, NASA will have sent a golf cart-sized rover called VIPER to the satellite – the launch will likely take place in December 2022 – that will be dedicated to taking soil samples with a one-meter drill at the pole. south. This will allow us to draw the first global map of water on the Moon and determine how much we could use. “We know from observations from the LCROSS and Chandrayaan-1 missions that the ice is there, as a volatile compound,” explains Anthony Colaprete, a scientist on the VIPER project. But what we do not know exactly is how it is distributed or how deep it is. That’s where our rover comes in.”
But the jewel in the crown of NASA’s plans is the Artemis program. This has received the name of Apollo’s sister, which is that of the aforementioned initiative that took the man to the Moon, and which will culminate in the sending of a crew to the satellite, perhaps in 2024. “[These explorers] will land on a place where no human has done so far: the South Pole – explains NASA spokeswoman Cheryl Warner -. There, robots and humans will work to find water and other essential compounds to be able to explore the Solar System in the long term. The more resources we can take advantage of in space, the less we will have to send there ”.
The success of Artemis will depend largely on the Gateway facility, a lunar orbital station that will serve as a base of operations. It will not be permanently occupied and will be much smaller than the International Space Station (ISS): while this is like a six-bedroom flat, Gateway will look more like an apartment. Even so, the latter will be equipped with rooms, laboratories and various embarkation points, which will allow the ships to refuel and the astronauts to stop and prepare to go or return to the Moon.
One of the first missions that astronauts will carry out on the satellite will be to locate the ice deposits that could exist at its south pole and determine if they can be exploited.
If all goes as planned, the first module of the station will be launched in 2022. It will be assembled in space, but its construction will depend on the proper functioning of two other devices: the Orion manned capsule and the super-heavy rocket SLS (Space Launch System), which NASA is working on. Finally, the first phase of the Gateway could be ready in 2024. It will have a dropship attached to the Moon and will have the bare minimum to carry out its main task: to facilitate two astronauts to set foot on our satellite again, perhaps that same year. It is probable that before the end of that decade the first European will do so.
Between 2025 and 2028 a second phase will begin, in which the development of the lunar station will be completed. By then, a manned mission will follow each year and five or six rockets will be sent, some of them built by the private sector. Later, scientific and economic operations on the Moon will be enhanced. To this end, NASA is promoting the Commercial Lunar Payload Services initiative, in which different companies participate. The idea is that they are the ones that develop the appropriate transport systems to carry cargo there, from probes to support vehicles and that space agencies contract their services so that they can focus exclusively on science and exploration.
In theory, the Gateway will end up being an international project in which public and private entities will collaborate, but the necessary agreements for this are just beginning to take shape. So how much effort is it worth?
On the one hand, our satellite can provide us with information about the origin of the Earth, as it was formed about 4.4 billion years ago when a body the size of Mars collided with our planet. In addition to favoring experiments in low gravity, with high radiation or high-temperature contrasts, it is an excellent vantage point, since the observatories that are established in it will not have to deal with atmospheric interference. The satellite will develop everything necessary to explore the Solar System, from habitats to psychological treatments, and it will become a true spaceport. Different agencies contemplate building infrastructures to resupply ships bound for the red planet and asteroids because it will also be key to promoting space mining. The Moon itself has some interesting resources that could be used to make fuel, power future fusion reactors, or obtain iron, titanium or aluminum. It is also possible to use the regolith that covers its surface as a construction material.
But perhaps one of the most interesting aspects is that all this cooperation will be, as the aforementioned Leonard Davis says, “the school in which nations will learn to work together in space and begin to build permanent power out there.”