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Theoretical Analysis of Stability for Hybrid Life Support Systems with Catalytic Incineration of Deadlock Products (Experiences with Russian BIOS-3 Project)
Technical Paper
2009-01-2579
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
This work represents an extended analysis of the mathematical model which was originally developed in an attempt to analyze the process of plant biomass incineration as a source of carbon dioxide for plant photosynthesis and growth and its effects on closed ecological system stability, Mathematical modeling has demonstrated that when the limit value of intensity of production processes and matter turnover specific for every closed ecosystem is exceeded, the gaseous toxic agents destroy the system. In order to illustrate further the performance and application of the proposed model, the hypothetical optimized ecological life support system was investigated, The preliminary results suggest appropriate system parameters for further engineering implementation. The results of the theoretical analysis are verified and supported by quantitative estimates from the Russian Closed Ecosystem (CES) BIOS-3 which was tested for extended life support between 1970 and 1990.
Citation
Holubnyak, Y. and Rygalov, V., "Theoretical Analysis of Stability for Hybrid Life Support Systems with Catalytic Incineration of Deadlock Products (Experiences with Russian BIOS-3 Project)," SAE Technical Paper 2009-01-2579, 2009, https://doi.org/10.4271/2009-01-2579.Also In
References
- Holubnyak, Y.I. Rygalov V.Ye. Contribution of Buffer (Absorption) Capacities to Stability of Closed Ecological Systems with Accelerated Treatment of Plant Biomass ICES 2008-01-1978
- Lisovsky G.M. Closed system: man-higher plants (four-month experiment) Novosibirsk Nauka 1979
- Dwall N.M. The effect of air pollutants on physiological processes in plants Plant, Cell Environ 12 1 2 1989
- Chernigovsky V.M. Experimental ecological manned systems, Problems of Space Biology v. 28 Moscow Nauka 1975
- Nelson M. Soffen G. Biological Life Support Systems 1990
- Odum E Basic Ecology Sunders College Publishing V. 1 & 2 1983
- Patterson M.T. Wignarajah K. Bubenheim D.L Biomass Incineration as a source of CO2 for plant gas exchange: phytotoxicity of incineration-derived gas and analyses of recovered evapotranspired water Life Support and Biosphere Science Vol. 3 183 190 1996
- Rygalov V.Ye., Cultivation of plants in space: their contribution to stabilizing atmospheric composition in Closed Ecological Systems Adv. Space Research Vol. 18 (4/5) 165 (4/5)176 1996
- Rygalov V.Ye. Loktionova S.P., Regeneration in ecological LSS: interaction of physical-chemical and biological phases in solid matter transformation Proceedings of the Sixth European Symposium on Space Environmental Control Systems. Noordwijk, The Netherlands, 20–22 May 1997 863 866 1997
- Rygalov V.Ye., Shilenko, M.P., Lisovsky, G.M. Minor components' composition in closed ecological system atmosphere: mechanisms of formation.” 46 th International Astronautical Congress October 2–6 Oslo, Norway 1995