Researchers Report Success Creating Oxygen from Moon Dust
2020-02-03
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1European researchers say they have created a process that can produce oxygen from moon dust.
2The process could provide a major source of oxygen for humans taking part in moon exploration activities in the future.
3Researchers from the European Space Agency, or ESA, carried out the experiments at a laboratory in the Netherlands.
4They reported their results in a study published in Planetary and Space Science.
5The team says ESA's experimental "plant" was able to successfully produce oxygen from simulated moon dust.
6The dust is part of a material known as regolith, a top layer of dirt and rock pieces that sit on the surface of the moon.
7Samples of regolith returned from the moon have confirmed that the material contains about 45 percent oxygen by weight.
8However, the oxygen is chemically locked in the form of minerals or glass, so it is not easily available for use.
9Having real samples of regolith from the moon made it possible for the researchers to create the simulated moon dust material used during testing.
10The oxygen extraction process is carried out using a method called molten salt electrolysis.
11This involves first placing the regolith in a metal container.
12Calcium chloride salt is added to the mixture, which is then heated to 950 degrees Celsius.
13At this temperature, the regolith remains solid.
14Next, an electrical current is passed through the material.
15The researchers say it is this step that results in oxygen being extracted from the regolith.
16The study reported that up to 96 percent of oxygen in the simulated moon dust was extracted during the experiments.
17ESA's long-term goal is to design an oxygen-producing "pilot plant" to operate full-time on the moon.
18The first technology demonstration of the system is expected to take place in the middle 2020s.
19Beth Lomax of the University of Glasgow was a lead researcher on the project.
20"Being able to acquire oxygen from resources found on the Moon would obviously be hugely useful for future lunar settlers, both for breathing and in the local production of rocket fuel," she said in a statement.
21The researchers reported that "as a bonus," the process also results in the production of usable metallic materials.
22ESA researcher Alexandre Meurisse said the finding that a number of metals are left behind was an important discovery.
23"This is another useful line of research, to see what are the most useful alloys that could be produced from them - and what kind of applications could they be put to," he said in a statement.
24ESA and the U.S. space agency NASA are both working on plans to return human beings to the moon.
25NASA has set a goal for 2024, with the aim to keep humans on the moon for long periods.
26ESA officials say the latest experiments were part of expanded engineering development aimed at finding new ways for lunar materials to be used to support future human activities.
27Last August, NASA's Kennedy Space Center in Florida announced its own plans to develop a device that would melt lunar regolith to extract oxygen.
28The NASA plan would involve heating the regolith to more than 1,600 degrees Celsius and then flowing electricity through the material, the agency explained.
29The process would attempt to cause a chemical reaction to split the regolith into oxygen and metals.
30Kevin Grossman is a materials science expert at Kennedy Space Center.
31He said researchers will be carrying out experiments to test the technology with the goal of getting NASA, in his words, "one step closer to an automated mass production of oxygen on the Moon."
32I'm Caty Weaver.
33And I'm Bryan Lynn.
1European researchers say they have created a process that can produce oxygen from moon dust. 2The process could provide a major source of oxygen for humans taking part in moon exploration activities in the future. 3Researchers from the European Space Agency, or ESA, carried out the experiments at a laboratory in the Netherlands. They reported their results in a study published in Planetary and Space Science. 4The team says ESA's experimental "plant" was able to successfully produce oxygen from simulated moon dust. The dust is part of a material known as regolith, a top layer of dirt and rock pieces that sit on the surface of the moon. 5Samples of regolith returned from the moon have confirmed that the material contains about 45 percent oxygen by weight. However, the oxygen is chemically locked in the form of minerals or glass, so it is not easily available for use. 6Having real samples of regolith from the moon made it possible for the researchers to create the simulated moon dust material used during testing. 7The oxygen extraction process is carried out using a method called molten salt electrolysis. This involves first placing the regolith in a metal container. Calcium chloride salt is added to the mixture, which is then heated to 950 degrees Celsius. At this temperature, the regolith remains solid. 8Next, an electrical current is passed through the material. The researchers say it is this step that results in oxygen being extracted from the regolith. The study reported that up to 96 percent of oxygen in the simulated moon dust was extracted during the experiments. 9ESA's long-term goal is to design an oxygen-producing "pilot plant" to operate full-time on the moon. The first technology demonstration of the system is expected to take place in the middle 2020s. 10Beth Lomax of the University of Glasgow was a lead researcher on the project. "Being able to acquire oxygen from resources found on the Moon would obviously be hugely useful for future lunar settlers, both for breathing and in the local production of rocket fuel," she said in a statement. 11The researchers reported that "as a bonus," the process also results in the production of usable metallic materials. 12ESA researcher Alexandre Meurisse said the finding that a number of metals are left behind was an important discovery. "This is another useful line of research, to see what are the most useful alloys that could be produced from them - and what kind of applications could they be put to," he said in a statement. 13ESA and the U.S. space agency NASA are both working on plans to return human beings to the moon. NASA has set a goal for 2024, with the aim to keep humans on the moon for long periods. 14ESA officials say the latest experiments were part of expanded engineering development aimed at finding new ways for lunar materials to be used to support future human activities. 15Last August, NASA's Kennedy Space Center in Florida announced its own plans to develop a device that would melt lunar regolith to extract oxygen. 16The NASA plan would involve heating the regolith to more than 1,600 degrees Celsius and then flowing electricity through the material, the agency explained. The process would attempt to cause a chemical reaction to split the regolith into oxygen and metals. 17Kevin Grossman is a materials science expert at Kennedy Space Center. He said researchers will be carrying out experiments to test the technology with the goal of getting NASA, in his words, "one step closer to an automated mass production of oxygen on the Moon." 18I'm Caty Weaver. 19And I'm Bryan Lynn. 20Bryan Lynn wrote this story for VOA Learning English, based on information from the European Space Agency and the University of Glasgow and Planetary and Space Science. Caty Weaver was the editor. 21We want to hear from you. Write to us in the Comments section, and visit our Facebook page. 22________________________________________________________________ 23Words in This Story 24simulated - adj. something that looks and behaves like something real but which is not real 25extraction - n. the act of taking something out 26acquire - v. to get something 27lunar - adj. of or relating to the moon 28bonus - n. something extra that is given but which was not expected 29alloy - n. a metal that is a mixture of two or more metals 30application - n. a way something can be used in for a particular purpose 31automated - adj. operated alone by equipment and not people