Interaction of physical-chemical and biological regeneration processes in ecological life support systems

Details Interaction of physical-chemical and biological regeneration processes in ecological life support systems Interaction of physical-chemical and biological regeneration processes in ecological life support systems

Jan 1997

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1997adspr..20.1995r&link_type=abstract

Advances in Space Research, Volume 20, Issue 10, p. 1995-2000.

Mathematics

Logic

Scientific paper

Catalytic combustion of inedible biomass of plants in ecological Life Support Systems (LSS) gives rise to gaseous oxides (CO_2, NO_2, SO_2, etc.). Some of them are toxic for plants suppressing their photosynthesis and productivity. Experiments with ``Bios-3'' experimental LSS demonstrate that a decrease of photosynthetic productivity in a system with straw incineration can jeopardize its steady operation. Analysis of the situation by a mathematical model taking into account absorption parameters of the system in terms of toxic elements makes it possible to formulate requirements for the structure and operation of LSS to provide for its stability. Avenues for further investigation of the problem of toxic stability of LSS are proposed.

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