EuCROPIS

Eu:CROPIS
	Render of the Eu:CROPIS satellite after launch
Mission type	Life sciences research
Operator	German Aerospace Center
COSPAR ID	2018-099BB
SATCAT no.	43807
Mission duration	Planned: 1 year
Spacecraft properties
Launch mass	250 kg (550 lb)
Dimensions	1.0m x 1.13m
Power	4 solar arrays (520 W), Li-Ion batteries
Start of mission
Launch date	1 December 2018
Rocket	Falcon 9 (Block 5)
Launch site	Vandenberg Air Force Base
Contractor	SpaceX
Orbital parameters
Reference system	Geocentric
Regime	Low Earth (SSO)
Perigee altitude	600 km (370 mi)
Epoch	Planned

Eu:CROPIS (Euglena and Combined Regenerative Organic-Food Production in Space) is a German life science satellite developed by the German Aerospace Center and is intended to investigate the possibility of growing plants (specifically tomatoes) in different levels of gravity, such as on the Moon and Mars,^[1] as a sustainable food source.

Mission objectives

Primary objective

With water being the only component that has been recycled so far and all other components being extracted and disposed, processing of urine is an issue in human space flight. Eu:CROPIS is intended to examine the possibility of using not only water, but also previously disposed parts to grow fruits and vegetables after proper conversion. The necessary experiments will be executed under varying gravity conditions. Two life support systems (a nitrifying trickle filter system and the single-celled algae Euglena gracilis) within the satellite will be used for producing biomass out of urine. Furthermore, the algae protect the whole system against high levels of ammonia present in urine.^[2]

The scientific goal is a "seed to seed experiment" while being exposed to gravity levels similar to those on the lunar surface as well as the surface of Mars. Both phases of experimentation will last for six months.

Secondary objective

PowerCells in Space (Payload 2) intends to measure photosynthesis in algae^[5]
Radiation Measurement in Space (Payload 3) has the goal of collecting data on long-term exposure to cosmic radiation over the course of the space flight^[6]
SCORE (Payload 4) is a technology demonstrator for next generation on-board computing in hardware and software developed by the DLR Institute of Space Systems. It is complemented by a set of three cameras that are commanded via SCORE.^[7]

Satellite characteristics

The main satellite payloads are two greenhouses, each maintained as a pressurized closed loop system, therefore simulating the environmental condition of the Moon or Mars. The level of gravity on the Moon (0.16 g) and Mars (0.38 g) are simulated by rotating the spacecraft's cylindrical body around its longitudinal axis.^[1] The experiments on different payloads are realized in different positions within the cylinder.^[2]

Onboard instruments

The satellite contains four gyroscopes, two magnetometers and three magnetic torque rods in combination with a single-frequency Phoenix GPS receiver for altitude control. The power for the satellite is provided by an Electrical Power Subsystem, which includes a lithium-ion battery and four deployable fixed solar arrays delivering an average of 520 W of power.^[1]

References

^ ^a ^b ^c ^d ^e ^f ^g "Eu:CROPIS". space.skyrocket.de. Retrieved 2018-09-26.
^ ^a ^b ^c "Eu CROPIS - eoPortal Directory - Satellite Missions". directory.eoportal.org. Retrieved 2018-09-26.
^ ^a ^b "UNITED STATES COMMERCIAL ELV LAUNCH MANIFEST". sworld.com.au. 2018-09-26. {{cite web}}: Cite has empty unknown parameter: |dead-url= (help)
^ DLR. "Eu:CROPIS – Greenhouses for the Moon and Mars". DLR Portal. Retrieved 2018-09-26.
^ Kovo, Yael (2015-11-09). "PowerCell". NASA. Retrieved 2018-09-26.
^ Hauslage, Jens; Strauch, Sebastian M.; Eßmann, Olaf; Haag, Ferdinand W. M.; Richter, Peter; Krüger, Julia; Stoltze, Julia; Becker, Ina; Nasir, Adeel (2018-09-26). "Eu:CROPIS – "Euglena gracilis: Combined Regenerative Organic-food Production in Space" - A Space Experiment Testing Biological Life Support Systems Under Lunar And Martian Gravity". Microgravity Science and Technology. doi:10.1007/s12217-018-9654-1. ISSN 0938-0108.
^ "Food Production in Space - Operating a Greenhouse in Low Earth Orbit (PDF)". nasaspaceflight.com. 2016-05-20. Retrieved 2018-09-26. {{cite web}}: Cite has empty unknown parameter: |dead-url= (help)

[skyrocket-1] ^ ^a ^b ^c ^d ^e ^f ^g "Eu:CROPIS". space.skyrocket.de. Retrieved 2018-09-26.

[eoportal-2] "Eu CROPIS - eoPortal Directory - Satellite Missions". directory.eoportal.org. Retrieved 2018-09-26.

[sworld-3] "UNITED STATES COMMERCIAL ELV LAUNCH MANIFEST". sworld.com.au. 2018-09-26. {{cite web}}: Cite has empty unknown parameter: |dead-url= (help)

[EuCropisDLR-4] DLR. "Eu:CROPIS – Greenhouses for the Moon and Mars". DLR Portal. Retrieved 2018-09-26.

[5] Kovo, Yael (2015-11-09). "PowerCell". NASA. Retrieved 2018-09-26.

[Hauslage_2018-6] Hauslage, Jens; Strauch, Sebastian M.; Eßmann, Olaf; Haag, Ferdinand W. M.; Richter, Peter; Krüger, Julia; Stoltze, Julia; Becker, Ina; Nasir, Adeel (2018-09-26). "Eu:CROPIS – "Euglena gracilis: Combined Regenerative Organic-food Production in Space" - A Space Experiment Testing Biological Life Support Systems Under Lunar And Martian Gravity". Microgravity Science and Technology. doi:10.1007/s12217-018-9654-1. ISSN 0938-0108.

[7] "Food Production in Space - Operating a Greenhouse in Low Earth Orbit (PDF)". nasaspaceflight.com. 2016-05-20. Retrieved 2018-09-26. {{cite web}}: Cite has empty unknown parameter: |dead-url= (help)

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