This Canadian Space Agency investigation assesses culture, values, and psychosocial adaptation of astronauts to a space environment shared by multinational crews on long-duration missions. The primary goal of the Veg-03 G/H/I testing is to demonstrate plant growth in the Veggie hardware using leafy green vegetables as a test crops.Īt Home in Space (AHIS): The crew completed a questionnaire in their morning (to prevent answers from being impacted by fatigue). Veg-03G is currently in a ~ 28-day growth cycle, which began on 25-October for the Red Russian Kale and Dragoon Lettuce plants. The current plan is to harvest next week. The ground team reports the plants are doing well, including the plants that were initially growing more slowly than the others were. Veg-03G plant check and watering: The Veg-03 plants were checked for dryness, watered as necessary, and imagery was taken of the overall Veggie facility and individual plants with the bellows up. Chondrules are small spherical objects that can be found in most of all meteorites with a texture that indicates they have crystallized from a melt. NR Module 77 is the Dream-Up Überflieger 2018 Project Experimental Chondrule Formation at the ISS (EXCISS).
NR Module 76 is the Dream-Up Überflieger 2018 Project Pump Application using Pulsed Electromagnets for Liquid relocation (PAPELL) experiment. NR Module 75, known as Dream-Up Überflieger 2018 Project ARISE, is an experiment by University of Duisburg-Essen team on Planet Formation Due to Charge Induced Clustering. Nanoracks (NR) Platform 1: The crew removed Modules -75 and -76 from Nanoracks Platform-1, took photos of modules -75, -76, and -77 all together, and then installed all three modules into Nanoracks Platform-1. This technology can be applied in the thermal control system of future satellites that generate large amounts of heat that could negatively affect satellite operations. This investigation demonstrates the heat transfer performance/functions under microgravity conditions using the LHPR experimental apparatus, which is grappled by the JEM Remote Manipulator System (JEMRMS). The LHPR, is an advanced two-phase heat transfer device that utilizes the evaporation and condensation of a working fluid (propylene in this case) to transfer heat, and the capillary force to circulate the fluid. The Multi-Purpose Experiment Platform (MPEP) was then removed from the Japanese Experiment Module Air Lock (JEMAL) slide table and troubleshooting was performed on a limit switch in the Passive Capture Mechanism. Loop Heat Pipe Radiator (LHPR) removal: Following a successful completion of the LHPR experiment on GMT 320, today the crew removed it from the MPEP and stowed the hardware.
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