A cylindrical salad growth facility with a light-emitting diodes unit as a component for biological life support system for space crews

Details A cylindrical salad growth facility with a light-emitting diodes unit as a component for biological life support system for space crews A cylindrical salad growth facility with a light-emitting diodes unit as a component for biological life support system for space crews

Jan 2006

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2006adspr..38.1240e&link_type=abstract

Advances in Space Research, Volume 38, Issue 6, p. 1240-1247.

Physics

2

Scientific paper

Efficiency of salad production under light-emitting diodes was tested with a prototype space plant growth facility “Phytocycle SD” with a 10-step crop conveyer. The system has a plant chamber in the form of a spiral cylinder. The planting unit inside the chamber is built of 10 root modules which provide a co-axial planting cylinder that rotates relative to the leaf chamber. Twelve panels of the lighting unit on the internal surfaces of the spiral cylinder carry 438 red (660 nm) and 88 blue (470 nm) light-emitting diodes producing average PPF equal 360 μmol m-2 s-1 4 cm below the light source, and 3 panels producing PPF equal 190 μmol m-2 s-1 at the initial steps of the plant conveyer. The system requires 0.44 kW and provides a plant chamber volume of 0.19 m3, with 0.86 m2 illuminated crop area. Productive efficiency of the facility was studied in a series of laboratory experiments with celery cabbage (Brassica pekinensis) (Lour) ( Rupr.) grown in the conveyer with a one-step period of 3 days. The crop grew in a fiber ion-exchange mineral-rich soil BIONA V3 under the 24-h light. Maximal productivity of the ripe (30-day-old) plants reached 700 g of the fresh edible biomass from one root module. There was a 30% greater biomass production and 3 5 times greater specific productivity per unit of expenditure of consumable resources over plants grown in a flat planting. This improved production was due to the extension of illuminated crop area for the final conveyor steps and concentration of photon flux toward center axis of cylindrical growth chamber. Biomass contents of ascorbic acid and carotene gathered from one root module per day ranged from 250 to 300 mg and 30 to 40 mg respectively. With this productivity, celery cabbage raised in “Phytocycle SD” potentially can satisfy the daily demands in vitamin C, vitamin A for a crew of three. Wider nutritional needs can be satisfied by planting mixed salad crops.

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