Methods for measurement and control of leakage in CELSS and their application and performance in the biosphere 2 facility

Methods for measurement and control of leakage in CELSS and their application and performance in the biosphere 2 facility

Atmospheric leakage between a CELSS and its surround is driven by the differential pressure between the two. In an earth-based CELSS, both negative and positive differential pressures of atmosphere are created as the resultant of three influences: thermal expansion/contraction, transition of water b...

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Veröffentlicht in:Advances in space research 1994-11, Vol.14 (11), p.331-335
1. Verfasser: Dempster, W.F.
Format: Artikel
Sprache:eng
Schlagworte:
Air Conditioning - methods
Atmosphere - analysis
Atmospheric Pressure
Computer Simulation
Diffusion
Ecological Systems, Closed
Environment, Controlled
Equipment Failure Analysis
Life Support Systems - instrumentation
Reproducibility of Results
Space life sciences
Space Simulation
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Zusammenfassung:Atmospheric leakage between a CELSS and its surround is driven by the differential pressure between the two. In an earth-based CELSS, both negative and positive differential pressures of atmosphere are created as the resultant of three influences: thermal expansion/contraction, transition of water between liquid and vapor phases, and external barometric pressure variations. The resultant may typically be on the order of 5000 pascals. By providing a flexible expansion chamber, the differential pressure range can be reduced two, or even three, orders of magnitude, which correspondingly reduces the leakage. The expansion chamber itself can also be used to measure the leak rate. Independent confirmation is possible by measurement of the progressive dilution of a trace gas. These methods as employed at the Biosphere 2 facility have resulted in an estimated atmospheric leak rate of less than 10 percent per year.
ISSN:0273-1177
1879-1948
DOI:10.1016/0273-1177(94)90318-2