A Mission to Remove Space Junk
In video games and movies, we often imagine spaceships avoiding giant asteroids (小行星) in the solar system. However, a greater concern for our world is space debris. Space debris refers to the 8, 000 metric tons of junk that orbits around the Earth. These millions of pieces floating in space threaten to destroy satellites and machinery that are necessary for weather forecasting, GPS, and telecommunication.
Along with other efforts to minimize space debris, the company Astroscale has launched End-of-Life Service by Astroscale, or Elsa-D. It aims to model a space debris removal system and includes two spacecraft: a servicer and a client. Let’s look at the danger of space debris and how Astroscale’s technology would work.
What Really Is Space Debris?
Space debris forms when old satellite and spaceship parts gather in the low Earth orbit. This build-up of waste can range from large rocket parts all the way to small pieces of metal that form when the parts explode or hit.
Because all the pieces travel at high speeds of 28, 000 km/h in orbit, they pose a threat to active satellites. It is reported that at least 26, 000 pieces of space junk are as small as a softball, yet they could “destroy a satellite on impact.”
Over 500, 000 pieces of debris could damage protective systems, fuel tanks, and spacecraft cabins. More commonly, over 100 million pieces of space debris are as small as a grain of salt. These pieces are dangerous as they could break spacesuits and threaten the safety of the crew.
Scientists are able to track debris particles (微粒) larger than 10cm, but pieces near 1cm in size are vey difficult to monitor. As a result, the removal of space debris is essential to ensure that new satellites will not hit old ones. The European Space Agency reports that 3, 600 satellites are currently operating with 28, 000 pieces of debris being tracked. In the next decade, 10, 000 new satellites will orbit Earth. The need for an effective space debris removal system is growing.
Astroscale hopes to develop a system where the spacecraft attaches to dead satellites and direct them towards Earth to burn up in the atmosphere. The technology would be used on future satellites, not dead satellites that are already in orbit. The purpose of this specific mission is to show how the capture system will work. The client spacecraft will play a piece of space debris.
The servicer spacecraft will use GPS sensors and magnetic (磁对接) docking technology to capture the client spacecraft. Like a cat and mouse, the servicer will capture and release the client several times over 6 months and the tasks will become more difficult.
Astroscale hopes that all satellites being developed in the future will include the magnetic docking plate which allows the servicer to capture the debris. As companies and governments take on more space projects, a system to remove waste in space is going to be increasingly important.
9. What do we know about space waste?
A.Rocket bodies are the main source of space debris. |
B.Space waste removal was fruitful in the past decades. |
C.The pieces near 1cm in size can be watched and checked. |
D.A piece of softball-sized space debris can destroy a satellite. |
10. What do we know about the Astroscale?
A.It aims to recycle the dead satellites. |
B.It launched a spaceship carrying cats and mice. |
C.It hopes to reduce the space projects. |
D.It tries to get rid of the future dead satellites. |
11. Which of the following can be the best title for the last three paragraphs?
A.The New Technology | B.The Future Space Satellites |
C.Where Does Space Junk Come? | D.Why Do We Remove Waste in Space? |
12. What does the author think of the project of Astroscale?
A.It may cause troubles in space. | B.It has cleared some space waste. |
C.It is challenging but worthwhile. | D.It will be put into use soon. |