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Engineers prepare the Mass Spectrometer Observing Lunar Operations (MSolo) instrument for the multilayer insulation installation inside Kennedy Space Center’s Space Station Processing Facility on Oct. 19, 2022. The activity is in preparation for the Polar Resources Ice Mining Experiment-1 (PRIME-1) mission, which will be the first in-situ resource utilization demonstration on the Moon. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services – commercial deliveries beginning in 2023 that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface. Photo credit: NASA/Ben Smegelsky
Inside the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, an engineer installs the Mass Spectrometer observing lunar operations (MSolo) onto its radiator bracket on June 14, 2022. Having successfully completed its thermal vacuum testing, the unit will undergo vibration testing later this month. This spectrometer is part of the PRIME-1 (Polar Resources Ice Mining Experiment-1) payload suite, slated to launch to the Moon in 2023 with Intuitive Machines. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and it will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. MSolo is manifested to fly on four of the agency’s Commercial Lunar Payload Delivery Service missions where under Artemis, commercial deliveries beginning in 2023 will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for human missions. Photo credit: NASA/Kim Shiflett
Engineers prepare the Mass Spectrometer Observing Lunar Operations (MSolo) instrument for the multilayer insulation installation inside Kennedy Space Center’s Space Station Processing Facility on Oct. 19, 2022. The activity is in preparation for the Polar Resources Ice Mining Experiment-1 (PRIME-1) mission, which will be the first in-situ resource utilization demonstration on the Moon. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services – commercial deliveries beginning in 2023 that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface. Photo credit: NASA/Ben Smegelsky
Engineers install multilayer insulation (MLI) on the Mass Spectrometer Observing Lunar Operations (MSolo) instrument inside Kennedy Space Center’s Space Station Processing Facility on Oct. 20, 2022. The activity is in preparation for the Polar Resources Ice Mining Experiment-1 (PRIME-1) mission, which will be the first in-situ resource utilization demonstration on the Moon. MLI protects the instrument from thermal temperature extremes, helping to insulate at cold temperatures and to cool at higher temperatures when solar lighting conditions or lunar infrared reflects onto the instrument. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services – commercial deliveries beginning in 2023 that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface. Photo credit: NASA/Ben Smegelsky
Engineers at NASA’s Kennedy Space Center in Florida remove the vibration fixture on the Mass Spectrometer observing lunar operations (MSolo) instrument on Aug. 4, 2022. The activity followed a vibration test in preparation for the Polar Resources Ice Mining Experiment-1 (PRIME-1) mission, which will be the first in-situ resource utilization demonstration on the Moon. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services – commercial deliveries beginning in 2023 that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface. Photo credit: NASA/Ben Smegelsky
A Kennedy Space Center engineer prepares the Mass Spectrometer observing lunar operations (MSolo) instrument for vibration testing inside the Florida spaceport’s Cryogenics Laboratory on Aug. 3, 2022. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS) – commercial deliveries that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface. This particular MSolo instrument is slated to fly on the agency’s Polar Resources Ice Mining Experiment-1 (PRIME-1) mission – the first in-situ resource utilization demonstration on the Moon – as part of the agency’s CLPS initiative. Photo credit: NASA/Kim Shiflett
A Kennedy Space Center engineer prepares the Mass Spectrometer observing lunar operations (MSolo) instrument for vibration testing inside the Florida spaceport’s Cryogenics Laboratory on Aug. 3, 2022. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services (CLPS) – commercial deliveries that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface. This particular MSolo instrument is slated to fly on the agency’s Polar Resources Ice Mining Experiment-1 (PRIME-1) mission – the first in-situ resource utilization demonstration on the Moon – as part of the agency’s CLPS initiative. Photo credit: NASA/Kim Shiflett
Engineers install multilayer insulation (MLI) on the Mass Spectrometer Observing Lunar Operations (MSolo) instrument inside Kennedy Space Center’s Space Station Processing Facility on Oct. 20, 2022. The activity is in preparation for the Polar Resources Ice Mining Experiment-1 (PRIME-1) mission, which will be the first in-situ resource utilization demonstration on the Moon. MLI protects the instrument from thermal temperature extremes, helping to insulate at cold temperatures and to cool at higher temperatures when solar lighting conditions or lunar infrared reflects onto the instrument. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services – commercial deliveries beginning in 2023 that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface. Photo credit: NASA/Ben Smegelsky
Engineers at NASA’s Kennedy Space Center in Florida remove the vibration fixture on the Mass Spectrometer observing lunar operations (MSolo) instrument on Aug. 4, 2022. The activity followed a vibration test in preparation for the Polar Resources Ice Mining Experiment-1 (PRIME-1) mission, which will be the first in-situ resource utilization demonstration on the Moon. MSolo is a commercial off-the-shelf mass spectrometer modified to work in space and will help analyze the chemical makeup of landing sites on the Moon, as well as study water on the lunar surface. Researchers and engineers are preparing MSolo instruments to launch on four robotic missions as part of NASA’s Commercial Lunar Payload Services – commercial deliveries beginning in 2023 that will perform science experiments, test technologies, and demonstrate capabilities to help NASA explore the Moon and prepare for crewed missions to the lunar surface. Photo credit: NASA/Ben Smegelsky
NASA Glenn engineer Monica Guzik inspects the cryogenic supply valves and instrumentation feed-throughs for the test chamber in the Small Multi-Purpose Research Facility (SMiRF). The facility provides the ability to simulate the environmental conditions encountered in space for a variety of cryogenic applications such as thermal protection systems, fluid transfer operations and propellant level gauging. SMiRF is a low-cost, small-scale screening facility for concept and component testing of a wide variety of hardware and is capable of testing cryogenic hydrogen, oxygen, methane and nitrogen.
#NASA, #NASAglenn, #SMiRF, #fluidstorage, #cryogenic, #NASATech, #instrumentation, #research, #Cleveland, #Ohio
Photo credit: NASA/Rami Daud
NASA Glenn engineer Monica Guzik inspects the cryogenic supply valves and instrumentation feed-throughs for the test chamber in the Small Multi-Purpose Research Facility (SMiRF). The facility provides the ability to simulate the environmental conditions encountered in space for a variety of cryogenic applications such as thermal protection systems, fluid transfer operations and propellant level gauging. SMiRF is a low-cost, small-scale screening facility for concept and component testing of a wide variety of hardware and is capable of testing cryogenic hydrogen, oxygen, methane and nitrogen.
#NASA, #NASAglenn, #SMiRF, #fluidstorage, #cryogenic, #NASATech, #instrumentation, #research, #Cleveland, #Ohio
Photo credit: NASA/Rami Daud
NASA Glenn engineer Monica Guzik inspects the cryogenic supply valves and instrumentation feed-throughs for the test chamber in the Small Multi-Purpose Research Facility (SMiRF). The facility provides the ability to simulate the environmental conditions encountered in space for a variety of cryogenic applications such as thermal protection systems, fluid transfer operations and propellant level gauging. SMiRF is a low-cost, small-scale screening facility for concept and component testing of a wide variety of hardware and is capable of testing cryogenic hydrogen, oxygen, methane and nitrogen.
#NASA, #NASAglenn, #SMiRF, #fluidstorage, #cryogenic, #NASATech, #instrumentation, #research, #Cleveland, #Ohio
Photo credit: NASA/Rami Daud
NASA Glenn engineer Monica Guzik inspects the cryogenic supply valves and instrumentation feed-throughs for the test chamber in the Small Multi-Purpose Research Facility (SMiRF). The facility provides the ability to simulate the environmental conditions encountered in space for a variety of cryogenic applications such as thermal protection systems, fluid transfer operations and propellant level gauging. SMiRF is a low-cost, small-scale screening facility for concept and component testing of a wide variety of hardware and is capable of testing cryogenic hydrogen, oxygen, methane and nitrogen.
#NASA, #NASAglenn, #SMiRF, #fluidstorage, #cryogenic, #NASATech, #instrumentation, #research, #Cleveland, #Ohio
Photo credit: NASA/Rami Daud
@NASAGoddard : RT @NASA_Technology: A view of @NASAGoddard's satellite servicing facility where #NASAtech Restore-L is being tested #TechTuesday… t.co/NtePCDAjsa (via Twitter twitter.com/NASAGoddard/status/791046978159411200)