FunHow to solve the problem of space debris?

How to solve the problem of space debris?

The problem of pollution does not only exist on Earth, but also in the exterior more immediate to it. Space is filling up with space junk. Since humans launched their first artifact into space in 1957, Sputnik-1, thousands of objects, satellites, probes … occupy a place in space. And when these artifacts grow old and useless, they remain cluttering Earth’s orbit. Currently, an estimated 20,000 objects, including satellites and space debris, are crowding low Earth orbit.

It is also known as ‘space junk’ and encompasses any useless artificial object orbiting the Earth . When something is launched into space, some debris from the spacecraft does not return to the atmosphere and remains orbiting at speeds in excess of 27,000 km / h.

The spectrum of debris is huge – from large rocket debris to tiny paint chips. A recent study suggests that there are at least 10,000 pieces the size of 10 cm out there. In addition, the European Space Agency estimates that 52% of the objects that orbit the Earth are ships that have become obsolete , rocket debris and other objects detached during missions.

The small size of the debris and their high velocity make them very dangerous projectiles. In addition, the launch of new satellites increases the risk of collision. There are millions of debris orbiting our planet right now, posing a threat to our orbital ‘highway’, not to mention the uncontrolled dangers that can potentially cause damage to the many active satellites that provide daily benefits to society.

So what is the most effective way to solve the space debris problem?

The economical solution

According to a new study published by the University of Colorado Boulder, it does not consist of capturing debris, but rather an international agreement to charge operators ‘orbital usage fees’ for each satellite put into orbit.

CIRES fellow economist Matthew Burgess adds: “Orbital usage fees would also increase the long-term value of the space industry.” By reducing the risk of future satellite and debris collisions, an annual fee increasing to approximately $ 235,000 per satellite would quadruple the value of the satellite industry by 2040; Burgess and his colleagues conclude in the article, published in the Proceedings of the National Academy of Sciences ( PNAS ).

A tax seems like a pretty dissuasive action. But what about technological solutions? These include removing space debris from orbit with nets, harpoons, or even lasers ; and the ‘desorbitation’ of a satellite at the end of its useful life.

But engineering solutions have their criticisms. According to Akhil Rao, assistant professor of economics at Middlebury College and one of the authors of the study, the technological solutions would not discourage companies, quite the opposite: “Eliminating space debris could motivate operators to launch more satellites, which It will further agglomerate the low Earth orbit, increase the risk of collision and increase costs ”.

Robots will clean up space junk

Despite criticism, a possible technological solution that is very popular, and that will be carried out by ESA in 2025, is the launch of a robot that ‘cleans’ the remaining scrap, from disused satellites and others useless artifacts from Earth’s orbit. The project is called ClearSpace-1, from the hand of a Swiss startup and will cost 117 million euros.

Another similar project, this time from a Tokyo company, is called Astroscale, which aims to remove orbital debris through the provision of end-of-life services and active debris removal.

How global warming will affect astronomy

Astronomical observations around the world will worsen in quality as a result of climate change, according to a new study.

New images of Saturn's rings in stunning detail

New images of Saturn's rings in stunning detail

This is what the Earth's magnetic field sounds like

The shield that protects our planet sounds 'pretty scary', according to ESA engineers.

Hubble photographs a nebula perfect for Halloween

Darkness looms in this Hubble Space Telescope photograph. He has focused his telescopic eyes on NGC 1999.

These are the most Earth-like exoplanets

Among the more than 5,000 exoplanets discovered to date, these are some of the most similar in size, mass, temperature or star to the one they orbit.