Difference between revisions of "Needs and Effluents"

From Lunarpedia
Jump to: navigation, search
 
(One intermediate revision by one other user not shown)
Line 1: Line 1:
 
'''Note:'''<br>
 
'''Note:'''<br>
These values are based on an average metabolic rate of 136.7 W/person (11,200 Btu/person/day) and a respiration quotient of 0.87.  The values will be higher when activity levels are greater and for larger than average people.  The respiration quotient is the molar ratio of CO<sub>2</sub> generated to O<sub>2</sub> consumed.
+
These values are based on an average metabolic rate of 136.7 W/person (11,200 Btu/person/day) and a respiration quotient of 0.87.  The values will be higher when activity levels are greater and for larger than average people.  The respiration quotient is the molar ratio of CO<sub>2</sub> generated to O<sub>2</sub> consumed.<ref><u>Designing For Human Presence in Space: An Introduction to Environmental Control and Life Support Systems</u> (RP-1324). Ed. Paul O. Wieland. NASA MSFC. Marshall Space Flight Center, Alabama 1994</ref>
  
 
==Human needs and effluents mass balance==
 
==Human needs and effluents mass balance==
Line 60: Line 60:
 
|}
 
|}
 
==References==
 
==References==
*<u>Designing For Human Presence in Space: An Introduction to Environmental Control and Life Support Systems</u> (RP-1324). Ed. Paul O. Wieland. NASA MSFC. Marshall Space Flight Center, Alabama 1994
+
<references/>
 +
 
 +
Available in pdf format from [http://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/19940022934_1994022934.pdf NASA RP-1324] - 20.56 MB<br/>
 +
[http://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/20060005209_2006005654.pdf Updates to tables 1 and 2 in appendix I of NASA RP–1324] - 460 kB
  
 
[[Category: Life Support]]
 
[[Category: Life Support]]

Latest revision as of 21:52, 16 May 2007

Note:
These values are based on an average metabolic rate of 136.7 W/person (11,200 Btu/person/day) and a respiration quotient of 0.87. The values will be higher when activity levels are greater and for larger than average people. The respiration quotient is the molar ratio of CO2 generated to O2 consumed.[1]

Human needs and effluents mass balance

(per person per day) Credit: NASA MSFC

Needs (in) Effluents (out)
Oxygen = 0.84 kg (1.84 lb) Carbon Dioxide = 1.00 kg (2.20 lb)
Food solids = 0.62 kg (1.36 lb) Respiration & Perspiration Water = 2,28 kg (5.02 lb)
Water in Food = 1.15 kg (2.54 lb) Food Preperation, Latent Water = 0.036 kg (3.31 lb)
Food Prep Water = 0.76 kg (1.67 lb) Urine = 1.50 kg (3.31 lb)
Drink = 1.62 kg (3.56 lb) Urine Flush Water = 0.50 kg (1.09 lb)
Metabolized Water = 0.35 kg (0.76 lb) Feces Water = 0.091 kg (0.20 lb)
Hand/Face Wash Water = 4.09 kg (9.00 lb) Sweat Solids = 0.018 kg (0.04 lb)
Shower Water = 2.73 kg (6.00 lb) Urine Solids = 0.059 kg (0.13 lb)
Urinal Flush = 0.49 kg (1.09 lb) Feces Solids = 0.032 kg (0.07 lb)
Clothes Wash Water = 12.50 kg (27.50 lb) Hygiene Water = 12.58 kg (27.68 lb)
Dish Wash Water = 5.45 kg (12.00 lb) Clothes Wash Water
Liquid = 11.90 kg (26.17 lb)
Latent = 0.60 kg (1.33 lb)
Total = 30.60 kg (67.32 lb) Total = 30.60 kg (67.32 lb)

References

  1. Designing For Human Presence in Space: An Introduction to Environmental Control and Life Support Systems (RP-1324). Ed. Paul O. Wieland. NASA MSFC. Marshall Space Flight Center, Alabama 1994

Available in pdf format from NASA RP-1324 - 20.56 MB
Updates to tables 1 and 2 in appendix I of NASA RP–1324 - 460 kB