Regenerative water supply for an interplanetary space station: The experience gained on the space stations “Salut”, “Mir”, ISS and development prospects
Based on the experience in operation of Russian space stations Salut, Mir and International space station ISS the station's water balance data, parameters and characteristics of the systems for water recovery have been obtained. Using the data design analysis an integrated water supply system f...
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| Published in: | Acta astronautica Vol. 61; no. 1; pp. 8 - 15 |
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| Main Authors: | , , , , , , , , |
| Format: | Journal Article |
| Language: | English |
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Elsevier Ltd
01-06-2007
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| Abstract | Based on the experience in operation of Russian space stations Salut, Mir and International space station ISS the station's water balance data, parameters and characteristics of the systems for water recovery have been obtained. Using the data design analysis an integrated water supply system for an interplanetary space station has been performed. A packaged physical/chemical system for water supply is composed of an integrated system for water recovery from humidity condensate, green house condensate, water from carbon dioxide reduction system and condensate from urine system; a system for water reclamation from urine; hygiene water processing system and a water storage system. The take off mass of the packaged water supply system (including expendables, redundancy hardware, equivalent mass of power consumption and of thermal control) is appropriate for Mars missions. The international space station is indispensable for verifying innovative processes and new water recovery systems intended for missions to Mars. |
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| AbstractList | Based on the experience in operation of Russian space stations Salut, Mir and International space station ISS the station's water balance data, parameters and characteristics of the systems for water recovery have been obtained. Using the data design analysis an integrated water supply system for an interplanetary space station has been performed. A packaged physical/chemical system for water supply is composed of an integrated system for water recovery from humidity condensate, green house condensate, water from carbon dioxide reduction system and condensate from urine system; a system for water reclamation from urine; hygiene water processing system and a water storage system. The take off mass of the packaged water supply system (including expendables, redundancy hardware, equivalent mass of power consumption and of thermal control) is appropriate for Mars missions. The international space station is indispensable for verifying innovative processes and new water recovery systems intended for missions to Mars. Based on the experience in operation of Russian space stations Salut, Mir and International space station ISS the station's water balance data, parameters and characteristics of the systems for water recovery have been obtained. Using the data design analysis an integrated water supply system for an interplanetary space station has been performed. A packaged physical/chemical system for water supply is composed of an integrated system for water recovery from humidity condensate, green house condensate, water from carbon dioxide reduction system and condensate from urine system; a system for water reclamation from urine; hygiene water processing system and a water storage system. The take off mass of the packaged water supply system (including expendables, redundancy hardware, equivalent mass of power consumption and of thermal control) is appropriate for Mars missions. The international space station is indispensable for verifying innovative processes and new water recovery systems intended for missions to Mars. Abbreviations: ISS, International space station; LSS, life support system; SRV, water recovery system; SRV-K, system for water recovery from humidity condensate; SPK-U, urine feed and pretreatment subsystem; SRV-U, system for water reclamation from urine; SRV-HG, hygiene water processing system |
| Author | Protasov, Nikoly Novikov, Vladimir Bobe, Leonid Synjak, Yury Skuratov, Vladimir Gavrilov, Lev Samsonov, Nikoly Tomashpolskiy, Mihail Andreychuk, Peter |
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| Cites_doi | 10.4271/2000-01-2517 10.4271/941536 10.4271/2006-01-2269 |
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| Keywords | SRV-U, system for water reclamation from urine SPK-U, urine feed and pretreatment subsystem ISS, International space station LSS, life support system SRV-K, system for water recovery from humidity condensate SRV-HG, hygiene water processing system SRV, water recovery system |
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| References | N.M. Samsonov, L.S. Bobe, V.M. Novikov, N.S. Farafonov et al., System for water reclamation from humidity condensate and urine for space station, 24th ICES and Fifth SECS, Fridrichshafen, Germany, June 20–23, 1994, SAE Technical Paper Series 941535. N.M. Samsonov, L.S. Bobe, V.M. Novikov, N.S. Farafonov, M.S. Amiragov, B.Ja. Pinsky, Ju.I. Grigoriev, S.Ju. Romanov, N.N. Protasov, Ju.E. Sinjak, V.M. Baranov, Experience in development and operation of a regenerative system for water supply on Mir space station, 30th ICES, July 10–13, 2000, Toulouse, France, SAE Technical Paper Series, 2000-01-2517. L.S. Bobe, N.M. Samsonov, V.A. Soloukhin, P.O. Andreychuk, N.N. Protasov, Ju.E. Synjak, V.M. Skuratov, The performance of the system for water recovery from humidity condensate (SRV-K) on international space station, ISS missions 1–11, 36th ICES, July 17–21, 2006, Norfolk, USA, 2006-01-2269. Burnasian, Adamovich, Samsonov (bib1) 1969; 40 N.M. Samsonov, L.S. Bobe, L.I. Gavrilov, V.M. Novikov, N.S. Farafonov, Ju.I. Grigoriev, S.Ju. Romanov, A.I. Grigoriev, Ju.E. Sinjak, et al., The results of operation of Mir's regenerative life support systems (LSS) and prospects for LSS development, 51th IAC, 2–6 October, 2000, Rio de Janeiro, Brazil, IAF/IAA-00-G.4.03. N.M. Samsonov, L.S. Bobe, V.M. Novikov, N.S. Farafonov, A.I. Grigoriev, Ju.E. Synjak, E.I. Grigorov, N.N. Protasov, Regenerative water supply system for lunar missions, 47th IAC, October 7–11, 1996, Beijing, China, IAF/IAA-96-G.4.02. Burnasian (10.1016/j.actaastro.2007.01.003_bib1) 1969; 40 10.1016/j.actaastro.2007.01.003_bib6 10.1016/j.actaastro.2007.01.003_bib5 10.1016/j.actaastro.2007.01.003_bib2 10.1016/j.actaastro.2007.01.003_bib4 10.1016/j.actaastro.2007.01.003_bib3 |
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| Title | Regenerative water supply for an interplanetary space station: The experience gained on the space stations “Salut”, “Mir”, ISS and development prospects |
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