Kevin Grossman, project lead for the Gaseous Lunar Oxygen from Regolith Electrolysis (GaLORE) project at NASA Kennedy Space Center’s Swamp Works, checks the hardware for GaLORE on July 21, 2020, inside a laboratory at the center’s Neil Armstrong Operations and Checkout Building. Grossman is leading an Early Career Initiative project that is investing in turning lunar regolith into oxygen that could be used for life support for sustainable human lunar exploration on long-duration missions to Mars. GaLORE was selected as an Early Career Initiative project by NASA’s Space Technology Mission directorate.

Kevin Grossman, project lead for the Gaseous Lunar Oxygen from Regolith Electrolysis (GaLORE) project at NASA Kennedy Space Center’s Swamp Works, inspects a piece of hardware for GaLORE on July 21, 2020, inside a laboratory at the center’s Neil Armstrong Operations and Checkout Building. Grossman is leading an Early Career Initiative project that is investing in turning lunar regolith into oxygen that could be used for life support for sustainable human lunar exploration on long-duration missions to Mars. GaLORE was selected as an Early Career Initiative project by NASA’s Space Technology Mission directorate.

Kevin Grossman, project lead for the Gaseous Lunar Oxygen from Regolith Electrolysis (GaLORE) project at NASA Kennedy Space Center’s Swamp Works, inspects a piece of hardware for GaLORE on July 21, 2020, inside a laboratory at the center’s Neil Armstrong Operations and Checkout Building. Grossman is leading an Early Career Initiative project that is investing in turning lunar regolith into oxygen that could be used for life support for sustainable human lunar exploration on long-duration missions to Mars. GaLORE was selected as an Early Career Initiative project by NASA’s Space Technology Mission directorate.

Kevin Grossman, project lead for the Gaseous Lunar Oxygen from Regolith Electrolysis (GaLORE) project at NASA Kennedy Space Center’s Swamp Works, works on the hardware for GaLORE on July 21, 2020, inside a laboratory at the center’s Neil Armstrong Operations and Checkout Building. Grossman is leading an Early Career Initiative project that is investing in turning lunar regolith into oxygen that could be used for life support for sustainable human lunar exploration on long-duration missions to Mars. GaLORE was selected as an Early Career Initiative project by NASA’s Space Technology Mission directorate.

Kevin Grossman, project lead for the Gaseous Lunar Oxygen from Regolith Electrolysis (GaLORE) project at NASA Kennedy Space Center’s Swamp Works, works on the hardware for GaLORE on July 21, 2020, inside a laboratory at the center’s Neil Armstrong Operations and Checkout Building. Grossman is leading an Early Career Initiative project that is investing in turning lunar regolith into oxygen that could be used for life support for sustainable human lunar exploration on long-duration missions to Mars. GaLORE was selected as an Early Career Initiative project by NASA’s Space Technology Mission directorate.

Kevin Grossman, project lead for the Gaseous Lunar Oxygen from Regolith Electrolysis (GaLORE) project at NASA Kennedy Space Center’s Swamp Works, works on the hardware for GaLORE on July 21, 2020, inside a laboratory at the center’s Neil Armstrong Operations and Checkout Building. Grossman is leading an Early Career Initiative project that is investing in turning lunar regolith into oxygen that could be used for life support for sustainable human lunar exploration on long-duration missions to Mars. GaLORE was selected as an Early Career Initiative project by NASA’s Space Technology Mission directorate.

Kevin Grossman, project lead for the Gaseous Lunar Oxygen from Regolith Electrolysis (GaLORE) project at NASA Kennedy Space Center’s Swamp Works, works on the hardware for GaLORE on July 21, 2020, inside a laboratory at the center’s Neil Armstrong Operations and Checkout Building. Grossman is leading an Early Career Initiative project that is investing in turning lunar regolith into oxygen that could be used for life support for sustainable human lunar exploration on long-duration missions to Mars. GaLORE was selected as an Early Career Initiative project by NASA’s Space Technology Mission directorate.

Kevin Grossman, project lead for the Gaseous Lunar Oxygen from Regolith Electrolysis (GaLORE) project at NASA Kennedy Space Center’s Swamp Works, checks the hardware for GaLORE on July 21, 2020, inside a laboratory at the center’s Neil Armstrong Operations and Checkout Building. Grossman is leading an Early Career Initiative project that is investing in turning lunar regolith into oxygen that could be used for life support for sustainable human lunar exploration on long-duration missions to Mars. GaLORE was selected as an Early Career Initiative project by NASA’s Space Technology Mission directorate.

Kevin Grossman, project lead for the Gaseous Lunar Oxygen from Regolith Electrolysis (GaLORE) project at NASA Kennedy Space Center’s Swamp Works, inspects a piece of hardware for GaLORE on July 21, 2020, inside a laboratory at the center’s Neil Armstrong Operations and Checkout Building. Grossman is leading an Early Career Initiative project that is investing in turning lunar regolith into oxygen that could be used for life support for sustainable human lunar exploration on long-duration missions to Mars. GaLORE was selected as an Early Career Initiative project by NASA’s Space Technology Mission directorate.

Kevin Grossman, project lead for the Gaseous Lunar Oxygen from Regolith Electrolysis (GaLORE) project at NASA Kennedy Space Center’s Swamp Works, checks the hardware for GaLORE on July 21, 2020, inside a laboratory at the center’s Neil Armstrong Operations and Checkout Building. Grossman is leading an Early Career Initiative project that is investing in turning lunar regolith into oxygen that could be used for life support for sustainable human lunar exploration on long-duration missions to Mars. GaLORE was selected as an Early Career Initiative project by NASA’s Space Technology Mission directorate.

Kevin Grossman, project lead for the Gaseous Lunar Oxygen from Regolith Electrolysis (GaLORE) project at NASA Kennedy Space Center’s Swamp Works, inspects a piece of hardware for GaLORE on July 21, 2020, inside a laboratory at the center’s Neil Armstrong Operations and Checkout Building. Grossman is leading an Early Career Initiative project that is investing in turning lunar regolith into oxygen that could be used for life support for sustainable human lunar exploration on long-duration missions to Mars. GaLORE was selected as an Early Career Initiative project by NASA’s Space Technology Mission directorate.

Kevin Grossman, project lead for the Gaseous Lunar Oxygen from Regolith Electrolysis (GaLORE) project at NASA Kennedy Space Center’s Swamp Works, inspects a piece of hardware for GaLORE on July 21, 2020, inside a laboratory at the center’s Neil Armstrong Operations and Checkout Building. Grossman is leading an Early Career Initiative project that is investing in turning lunar regolith into oxygen that could be used for life support for sustainable human lunar exploration on long-duration missions to Mars. GaLORE was selected as an Early Career Initiative project by NASA’s Space Technology Mission directorate.

Los Angeles Police Department personnel and former NASA astronaut and NASA Armstrong Flight Research Center (then Dryden) test pilot Gordon Fullerton, seated, join the crew of the NASA 747 Shuttle Carrier Aircraft. Standing is, from left, Larry LaRose, J.J. Johnston, Jeff Moultrie, Frank Batteas, Bill Brockett, Henry Taylor, Troy Asher, Jim Less, Bill Rieke, officer Kevin Standage, Sgt. Stephen Roussell, and Glenn Grossman.

Kevin Grossman, left, principal investigator of the Gaseous Lunar Oxygen from Regolith Electrolysis (GaLORE) project, and Elspeth Petersen, a chemical engineer and member of the GaLORE team, check some of the project’s hardware that will be used to melt lunar regolith – dirt and dust on the Moon made from crushed rock – simulants during a test inside a laboratory at Kennedy’s Neil Armstrong Operations and Checkout Building on Oct. 29, 2020. GaLORE was selected as an Early Career Initiative project by the agency’s Space Technology Mission directorate, and the team was tasked with developing a device that could melt lunar regolith and turn it into oxygen. As NASA prepares to land the first woman and the next man on the Moon in 2024 as part of the Artemis program, technology such as this can assist with sustainable human lunar exploration and long-duration missions to Mars.

Elspeth Petersen, left, a chemical engineer and member of the Gaseous Lunar Oxygen from Regolith Electrolysis (GaLORE) project team, and Kevin Grossman, GaLORE principal investigator, inspect a reactor before a test to melt lunar regolith – dirt and dust on the Moon made from crushed rock – simulants inside a laboratory at Kennedy’s Neil Armstrong Operations and Checkout Building on Oct. 29, 2020. GaLORE was selected as an Early Career Initiative project by the agency’s Space Technology Mission directorate, and the team was tasked with developing a device that could melt lunar regolith and turn it into oxygen. As NASA prepares to land the first woman and the next man on the Moon in 2024 as part of the Artemis program, technology such as this can assist with sustainable human lunar exploration and long-duration missions to Mars.