Aviation Life Support Systems Parts

(Page 4) End item NSN parts page 4 of 5
Part Number
NSN
NIIN
56-002-1 Parachute Harness Back Pad
005557531
56B6115 Vee Ring Assembly
009861139
57013-5 Air Breathing Hose Assembly
013910503
57038 Inlet Tubing Cover
000264199
60A11306 Parachute Harness Back Pad
005557531
60A113D6-1 Parachute Harness Back Pad
005557531
60A113D7-1 Rip Cord Assembly Nb6
005715532
60A113E2-51 Back Personnel Parachute Pack
000606679
60A114E3-1 Canopy Assembly Parachute
000049931
60A114E3-27 Canopy Assembly Parachute
000049931
60A125E16-1 Chute Pilot
007046702
60C4459 Helme Mask Receiver
010162852
61E660 Chute Pilot
007046702
61E660-1 Chute Pilot
007046702
675AS103-1 Ches Personnel Parachute Harness
000606082
677AS100-2 Strap Connector
001403481
67A1817 Cushion Assembly
001226660
67C1766LH Visor Extension
001174557
699AS101-13 Parachute Deployment Bag
010187756
70E124-1 Pilot Chute
001575975
Page: 4

Aviation Life Support Systems

Picture of Aviation Life Support Systems

In human spaceflight, a life support system is a group of devices that allow a human being to survive in space. US government space agency NASA, The life support system may supply air, water and food. It must also maintain the correct body temperature, an acceptable pressure on the body and deal with the body's waste products. Shielding against harmful external influences such as radiation and micro-meteorites may also be necessary. Components of the life support system are life-critical, and are designed and constructed using safety engineering techniques.

A crewmember of typical size requires approximately 5 kg or 11.0231 lb(total) of food, water, and oxygen per day to perform the standard activities on a space mission, and outputs a similar amount in the form of waste solids, waste liquids, and carbon dioxide. The mass breakdown of these metabolic parameters is as follows: 0.84 kg of oxygen, 0.62 kg of food, and 3.52 kg of water consumed, converted through the body's physiological processes to 0.11 kg of solid wastes, 3.87 kg of liquid wastes, and 1.00 kg of carbon dioxide produced. These levels can vary due to activity level, specific to mission assignment, but will correlate to the principles of mass balance. Actual water use during space missions is typically double the specified values mainly due to non-biological use (i.e. personal cleanliness). Additionally, the volume and variety of waste products varies with mission duration to include hair, finger nails, skin flaking, and other biological wastes in missions exceeding one week in length. Other environmental considerations such as radiation, gravity, noise, vibration, and lighting also factor into human physiological response in space, though not with the more immediate effect that the metabolic parameters have.

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