Knowledge Base Wiki

Search for LIMS content across all our Wiki Knowledge Bases.

Type a search term to find related articles by LIMS subject matter experts gathered from the most trusted and dynamic collaboration tools in the laboratory informatics industry.

SpaceX CRS-27
CRS-27 on the pad
NamesSpX-27
Mission typeISS resupply
OperatorSpaceX
COSPAR ID2023-033A Edit this at Wikidata
SATCAT no.55850Edit this on Wikidata
Mission duration31 days, 20 hours, 28 minutes
Spacecraft properties
SpacecraftCargo Dragon C209
Spacecraft typeCargo Dragon
ManufacturerSpaceX
Dry mass9,525 kg (20,999 lb)
Start of mission
Launch date15 March 2023, 00:30 UTC[1]
RocketFalcon 9 Block 5 (B1073.7)
Launch siteKennedy Space Center, LC-39A
End of mission
Recovered byMV Shannon
Landing date15 April 2023, 20:58 UTC[2]
Landing siteGulf of Mexico
Orbital parameters
Reference systemGeocentric orbit
RegimeLow Earth orbit
Inclination51.66°
Docking with ISS
Docking portHarmony forward
Docking date16 March 2023, 11:31 UTC
Undocking date15 April 2023, 15:05 UTC
Time docked30 days, 3 hours, 34 minutes
Cargo
Mass2,852 kg (6,288 lb)

SpaceX CRS-27 mission patch

SpaceX CRS-27, also known as SpX-27, was a Commercial Resupply Service mission to the International Space Station (ISS) launched on 15 March 2023.[1] The mission was contracted by NASA and was flown by SpaceX using Cargo Dragon C209. This was the seventh flight for SpaceX under NASA's CRS Phase 2.[3]

Cargo Dragon

Main article: SpaceX Dragon 2

SpaceX plans to reuse the Cargo Dragons up to five times. The Cargo Dragon will launch without SuperDraco abort engines, without seats, cockpit controls and the life support system required to sustain astronauts in space.[4][5] Dragon 2 improves on Dragon 1 in several ways, including lessened refurbishment time, leading to shorter periods between flights.[6]

The new Cargo Dragon capsules under the NASA CRS Phase 2 contract will land east of Florida in the Atlantic Ocean.[4][6]

Payload

NASA contracted for the CRS-27 mission from SpaceX and therefore determines the primary payload, date of launch, and orbital parameters for the Cargo Dragon.[7]

  • Science investigations: ~1,200 kg (2,600 lb)
  • Vehicle hardware: ~540 kg (1,190 lb)
  • Crew supplies: ~910 kg (2,010 lb)
  • Spacewalk equipment: ~170 kg (370 lb)
  • Computer resources: ~0 kg (0 lb)-30 kg (66 lb)
  • External payloads: 530 kg (1,170 lb)

STP-H9

A technology demonstration mission which consists of the following payloads:[8] [9]

  • SWELL (Space Wireless Energy Laser Link), a test payload for laser power beaming.[10]
  • Electric Propulsion Electrostatic Analyzer, A test device that will demonstrate re-boost using ion propulsion.
  • Neutron Radiation Detection Instrument from NRL
  • Variable Voltage Ion Protection Experiment from NRL
  • ECLIPSE (Experiment for Characterizing the Lower Ionosphere and Production of Sporadic-E)
  • Glowbug, cosmic ray detector built in conjunction with NASA, an experiment that will study cosmic rays for two years.
  • SpaceCube Edge Node Intelligent Collaboration, an experiment built by NASA Goddard that will study microchips and artificial intelligence exposed to the vacuum of space.
  • SOHIP, a hyperspectral imager built by Livermore Labs that will study the atmosphere for two years.

Research

Various experiments were transported to the orbiting laboratory, and provided valuable insight for researchers. These include student projects that were given the opportunity to fly and operate their experiments on the ISS as part of DLR's Überflieger 2 competition. Among them are the projects:

  • FARGO (Ferrofluid Application Research Goes Orbital) of the Small Satellite Student Society of the University of Stuttgart (KSat e.V.)
  • Glücksklee
  • BRAINS (Biological Research using Artificial Intelligence for Neuroscience in Space)
  • ADDONISS (Ageing and Degenerative Diseases of Neurons on the ISS)

European Space Agency (ESA) research and activities:[11]

  • ESA's BIOFILMS (Biofilm Inhibition On Flight equipment and on board the ISS using microbiologically Lethal Metal Surfaces) experiment investigating bacterial biofilm formation and antimicrobial properties of different metal surfaces under spaceflight conditions in altered gravity.

NASA Glenn Research Center studies:[12]

Materials International Space Station Experiment MISSE-17:

  • Vitrimeric reversible adhesive for in-space assembly

Mouse Habitat Unit-8 (MHU-8) mission - The NASA-JAXA Joint Partial-gravity Rodent Research Mouse Habitat Unit-8 (JPG-RR MHU-8) mission tested the impact of spaceflight and induced partial gravities on mice. The gravities tested were 0, 0.33, 0.66, 1 g. An interdisciplinary team of investigators will study how multiple biological systems (bone, muscle, cardiovascular system, neuro-performance, circadian rhythms, and microbiome) respond to these conditions. [13]

CubeSats

CubeSats planned for this mission:

NEUDOSE[14]

The NEUtron DOSimetry & Exploration (NEUDOSE) mission from the McMaster Interdisciplinary Satellite Team[15] aims to further our understanding of long-term exposure to space radiation by investigating how charged and neutral particles contribute to the human equivalent dose during low-Earth orbit (LEO) missions. NEUDOSE is a 2U CubeSat built by students at McMaster University. The scientific goals[16][17] of the project are to:

  • Demonstrate the Charged & Neutral Particle Tissue Equivalent Proportional Counter (CNP-TEPC) instrument, that allows for the discrimination of dose from charged and neutral particles in real-time.
  • Map the contribution of charged and neutral particle dose rates in LEO.

The mission objectives also include providing early-career science and engineering students with valuable leadership, technical, and flight project development skills.[14] Furthermore, the NEUDOSE mission is involved with the development of amateur radio operators and custom hardware.[18]

Northern SPIRIT

Three CubeSat satellites were built in part of the Northern Space Program for Innovative Research and Integrated Training (Northern SPIRIT). These CubeSats were constructed as a collaboration between Yukon University, Aurora Research Institute in the Northwest Territories, and the University of Alberta.[19] This initiative is supported by the Canadian Space Agency (CSA) as a part of the Canadian CubeSat Project (CCP). In addition to what's below, all three satellites have a primary goal of gathering magnetic field data of the ionosphere to study small scale field-aligned currents.[19]

  • Ex-Alta 2: A 3U CubeSat built by students from the University of Alberta's student organization AlbertaSat. Ex-Alta 2's primary mission is to obtain scientific data for wildfire research and prevention. Additionally, Ex-Alta 2 was designed to promote the long-term goal of a fully open-sourced cube satellite, and the development of the Albertan commercial space industry.[20]
  • AuroraSAT and YukonSat: 2U CubeSats built by students from the Aurora Research Institute and Yukon University in collaboration with the University of Alberta, who provided the bus for each cubesat and did final integration of payloads. One of the two primary missions is the Northern Images Mission, which will display art on a small screen on the satellite, and then take images of this art from space with the Earth in the background. Children across Northern Canada will have the opportunity to have their artwork featured. The Northern Voices Mission will transmit and broadcast recordings of Northern Canadian stories and perspectives in amateur radio bands across the world.[21]

ELaNa 50

This new iteration of the ELaNa (Educational Launch of Nanosatellites) initiative will consist of two cubesats from American education institutes:

  • ARKSat-1: 1U CubeSat developed by students at the University of Arkansas, its main mission will be to perform atmospheric measurements through the ground detection of a LED signal from orbit. Furthermore after the end of the mission the cubesat will make use of a Solid State Inflatable Balloon (SSIB) to increase the spacecraft's drag and speed up its re-entry.
  • LightCube: 1U CubeSat developed by students at the Arizona State University, it carries a flash bulb that can be remotely activated by radio amateurs to produce a brief flash visible from the ground.
SpaceX CRS-27
  • Falcon 9 ahead of flight
    Falcon 9 ahead of flight
  • Launch of CRS-27
    Launch of CRS-27
  • Long-exposure image of launch
    Long-exposure image of launch

See also

References

  1. ^ a b Garcia, Mark (6 March 2023). "Expanded Station Crew Works Together Before Quartet Departure". NASA. Retrieved 7 March 2023.
  2. ^ Lavelle, Heidi (15 April 2023). "SpaceX Cargo Dragon Splashes Down, Returning Science to Earth for NASA". NASA. Retrieved 15 April 2023.
  3. ^ Reckart, Timothy (15 June 2022). "Microgravity Research Flights". NASA. Retrieved 24 July 2022.
  4. ^ a b Office of Inspector General (26 April 2018). Audit of Commercial Resupply Services to the International Space Center (PDF) (Report). Vol. IG-18-016. NASA. pp. 24, 28–30. Retrieved 4 April 2021. Public Domain This article incorporates text from this source, which is in the public domain.
  5. ^ "Dragon 2 modifications to Carry Cargo for CRS-2 missions". Teslarati. Retrieved 4 April 2021.
  6. ^ a b Clark, Stephen (2 August 2019). "SpaceX to begin flights under new cargo resupply contract next year". Spaceflight Now. Retrieved 4 April 2021.
  7. ^ "SpaceX Commercial Resupply". ISS Program Office. NASA. 1 July 2019. Retrieved 4 April 2021. Public Domain This article incorporates text from this source, which is in the public domain.
  8. ^ "STP-H9". Gunter's Space Page. Retrieved 15 March 2023.
  9. ^ Clark, Stephen. "U.S. military experiments hitching ride to space station on SpaceX cargo ship – Spaceflight Now". Retrieved 15 March 2023.
  10. ^ "First In-Space Laser Power Beaming Experiment Surpasses 100 Days of Successful On-Orbit Op". U.S. Naval Research Laboratory. Retrieved 19 November 2023.
  11. ^ https://www.esa.int [bare URL]
  12. ^ "ISS Research Program". Glenn Research Center. NASA. 1 January 2020. Retrieved 4 April 2021. Public Domain This article incorporates text from this source, which is in the public domain.
  13. ^ "The NASA Task Book". taskbook.nasaprs.com. Retrieved 2 August 2023.
  14. ^ a b "McMaster NEUDOSE". McMaster NEUDOSE. Retrieved 28 November 2022.
  15. ^ "About Us". McMaster NEUDOSE. Retrieved 28 November 2022.
  16. ^ "Mission Objectives". McMaster NEUDOSE. Retrieved 28 November 2022.
  17. ^ Hanu, A. R.; Barberiz, J.; Bonneville, D.; Byun, S. H.; Chen, L.; Ciambella, C.; Dao, E.; Deshpande, V.; Garnett, R.; Hunter, S. D.; Jhirad, A.; Johnston, E. M.; Kordic, M.; Kurnell, M.; Lopera, L. (December 2016). "NEUDOSE: A CubeSat Mission for Dosimetry of Charged Particles and Neutrons in Low-Earth Orbit". Radiation Research. 187 (1): 42–49. doi:10.1667/RR14491.1. ISSN 0033-7587. PMID 28001909. S2CID 20366207.
  18. ^ "Amateur Radio". McMaster NEUDOSE. Retrieved 28 November 2022.
  19. ^ a b "Northern SPIRIT". AlbertaSat. 5 January 2021. Retrieved 24 November 2022.
  20. ^ "Ex-Alta 2". AlbertaSat. 18 November 2018. Retrieved 24 November 2022.
  21. ^ "AuroraSat: Canadian CubeSat Project | Aurora Research Institute". nwtresearch.com. Retrieved 24 November 2022.
source: https://en.wikipedia.org/wiki/SpaceX_CRS-27