Abstract: The work is devoted to the development of a low-cost technology for transporting goods from Earth to the Moon, to other space objects and in the opposite direction. The subject of the study is the technology of delivering various categories of cargo to the moon, the technology of exporting cargo from the lunar base to the near-moon orbital station and the near-earth orbital station, technologies for transferring cargoes from low-earth orbit to highly elliptical, technologies for exporting cargoes from the Earth to space objects of artificial and natural origin. The work aims to determine the conditions for eliminating unnecessary operations and following expenses and designing on this basis low-cost transportation methods that correspond to the achieved level of development of technology and science. The research showed: (1) delivery of certain categories of cargo to the Moon with technology «Moontrap» reduces the shipping cost by 80 percent; (2) the use the technology of export of lunar raw materials called «Sattrap» reduces by 80 percent the transportation costs for the creation of the "lunar base-lunar orbital station"; (3) the use of «Sattrap» technology in the near-Earth space reduces by 2-3 times the cost of delivering goods from a satellite in low orbit to the fuel filling station on a highly elliptical orbit.
Keywords:
Lunar base, Lunar orbital station, Extraterrestrial resources, Regolith processing, Soft landing, Heavy landing, Penetrator, Orbital vehicle, Orbital fueling station, Low-cost space access
References
1. Chizhevskii A. Teoriya kosmicheskikh er // ...Tri, dva, odin! / Sost. V. K. Chanturiya. M.: Sovetskaya Rossiya, 1989. 496 s.
2. Akademik Anatolii Koroteev: «Yadernaya energetika sposobna obespechit' kachestvennyi skachok v razvitii kosmonavtiki». 10.02.2010. URL: https://www.roscosmos.ru/print/8996/ (data obrashcheniya: 29.03.2018)
3. «Kosmonavt-ispytatel' Sergei Krichevskii: Raketnyi etap kosmicheskoi deyatel'nosti podkhodit k kontsu». 12 aprelya 2013. URL: http://vm.ru/news/2013/04/12/kosmonavt-ispitatel-sergej-krichevskij-raketnij-etap-kosmicheskoj-deyatelnosti-podhodit-k-kontsu-191808.html (data obrashcheniya: 29.03.2018).
4. Krafft A. Erike. Budushchee kosmicheskoi industrii: Per s angl. – M.: Mashinostroenie, 1979. 200 s.
5. Getland K. i dr. Kosmicheskaya tekhnika. Illyustrirovannaya entsiklopediya. Per. s angl. – M.: Mir, 1986. 295 s.
6. Levantovskii V.I. Mekhanika kosmicheskogo poleta v elementarnom izlozhenii. M. «Nauka» .1980. 512 s.
7. Marwik E.F. Extraterrestrial transportation apparatus and metod. Patent No. US4775120, Oct.4, 1988. URL: https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US4775120.pdf (data obrashcheniya: 29.03.2018).
8. Marwik E.F. Extraterrestrial transportation apparatus and metod. Patent No. US5199671. Apr. 6, 1993. URL: https://docs.google.com/viewer?url=patentimages.storage.googleapis.com/pdfs/US5199671.pdf (data obrashcheniya: 29.03.2018).
9. Demetriades S.T. A Novel System For Space Flight Using A Propulsive Fluid Accumulator // Journal of the British Interplanetary Society. 1959. Vol 17. P.
10. Burdakov V.P., Danilov Yu.I. Fizicheskie problemy kosmicheskoi tyagovoi energetiki. - M.: Atomizdat, 1969.
11. Jones C., Masse D., Glass C., Wilhite A., Walker M. PHARO – Propellant Harvesting of Atmospheric Resources in Orbit. IEEE Aerospace Conference, Big Sky, MT, March 2010. DOI: 10.1109/AERO.2010.5447034. URL:https://pdfs.semanticscholar.org/4dbd/b60bbdfd0706eab54de7c6e45264d5f4d8c9.pdf (data obrashcheniya 03.04.2018).
12. Kosmicheskie solnechnye elektrostantsii – problemy i perspektivy: monografiya / G. G. Raikunov, V. A. Komkov, V. K. Sysoev, V. M. Mel'nikov; pod red. G. G. Raikunova. – Moskva: RUDN, 2017. – 282 s.
13. SpaceX vpervye udalos' uspeshno posadit' pervuyu stupen' rakety Falcon 9 // RIA Novosti. 22 dekabrya 2015. URL: https://ria.ru/tv_science/20151222/1346676231.html?inj=1 (data obrashcheniya: 04.04.2018).
14. Larionov V. Ilon Mask umen'shil raketu dlya poleta na Mars // Novosti vysokikh tekhnologii. Hi-News.ru. 26 iyulya 2017. URL: https://hi-news.ru/technology/ilon-mask-umenshil-raketu-dlya-polyota-na-mars.html (data obrashcheniya: 04.04.2018).
15. Elon Musk. Becoming a Multiplanet Species [video]. 68th annual meeting of the International Astronautical Congress in Adelaide, Australia: SpaceX. URL: https://www.youtube.com/watch?v=tdUX3ypDVwI (data obrashcheniya: 04.04.2018).
16. Mayboroda A. How to build a Moon base cheaply // ROOM. 2017. № 1. S. 70–73.
17. Maiboroda A.O. Kak sozdat' lunnuyu bazu i orbital'nuyu stantsiyu na 80% deshevle // Vozdushno-kosmicheskaya sfera. 2018. № 1. S. 22–31.
18. Cheberko I. Akademik Galimov: «Nuzhno nalazhivat' proizvodstvo na Lune» // Izvestiya. 29 noyabrya 2016. URL: https://iz.ru/news/648070 (data obrashcheniya: 04.04.2018).
19. Ling Z. et al. Correlated compositional and mineralogical investigations at the Chang′e-3 landing site // Nature Communications. 2015.No 6. DOI:10.1038/ncomms9880.
20. Maiboroda A. O. Lunnaya i inoplanetnaya baza – novye vozmozhnosti sozdaniya i ekspluatatsii //Aktual'nye problemy rossiiskoi kosmonavtiki: Trudy XXXVII akademicheskikh chtenii po kosmonavtike. Moskva, yanvar'-fevral' 2013 g. / Pod obshch. red. A.K. Medvedevoi. – M.: Komissiya RAN po razrabotke nauchnogo naslediya pionerov osvoeniya kosmicheskogo prostranstva, 2013. S. 293–296.
21. V RKK «Energiya» razrabotan proekt kosmicheskogo «chelnoka» dlya poletov na Lunu s okolozemnoi orbity // Voennoe obozrenie. 26 maya 2016. URL: https://topwar.ru/95832-v-rkk-energiya-razrabotan-proekt-kosmicheskogo-chelnoka-dlya-poletov-na-lunu-s-okolozemnoy-orbity.html (data obrashcheniya: 10.04.2018).
22. Khamits I.I., Filippov I.M., Burylov L.S., Tenenbaum S.M., Perfil'ev A.V., Gusak D.I. Kontseptsiya kosmicheskoi transportno-energeticheskoi sistemy na osnove solnechnogo mezhorbital'nogo elektroraketnogo buksira // Kosmicheskaya tekhnika i tekhnologii. 2017. № 1. S. 32-40. URL: https://www.energia.ru/ktt/archive/2017/01-2017/01-02.pdf (data obrashcheniya: 08.04.2018).
23. Luna – shag k tekhnologiyam osvoeniya Solnechnoi sistemy / Pod nauch. red. V.P. Legostaeva i V.A. Lopoty. – M.: RKK «Energiya». 2011. 584 s.
24. Frolov I.E. Razvitie mirovykh vysokotekhnologichnykh proizvodstv i kosmicheskie rynki: smozhet li kosmonavtika stat' novym global'nym novovvedeniem? // Ekonomicheskaya nauka sovremennoi Rossii. 2017. № 4 (79). S.43-57. URL: http://www.space2010.ru/Frolov_2017.pdf (data obrashcheniya: 08.04.2018).
25. Ageev V. P., Ostrovskii V. G. Magnitoplazmodinamicheskii dvigatel' bol'shoi moshchnosti nepreryvnogo deistviya na litii // Izvestiya RAN. Energetika. 2007. № 3. S. 82–95.
26. Posle daty neobratimosti nichto ne ostanovit global'noe poteplenie // Kommersant.ru. Nauka. 21 aprelya 2015. URL: https://www.kommersant.ru/doc/2718294 (data obrashcheniya: 10.03.2018).
27. PK0520627. Yadernye energeticheskie ustanovki dlya kosmicheskikh apparatov vysokoorbital'nogo bazirovaniya. Sm. v baze dannykh: Federal'nyi informatsionnyi fond otechestvennykh i inostrannykh katalogov na promyshlennuyu produktsiyu.. URL: http://promkatalog.rf (data obrashcheniya: 04.04.2018).
28. Grek A. Vzorvat' po-mirnomu: My po vzryvam – vperedi planety vsei // Populyarnaya mekhanika». 2006. № 12. URL: https://www.popmech.ru/madein-russia/5908-vzorvat-po-mirnomu-mypo-vzryvam-vperedi-planety-vsey/ (data obrashcheniya: 10.03.2018).
29. Karevskii A.V., Kochetkov S.A. i dr. Rezul'taty raschetnykh i eksperimental'nykh issledovanii po teplovomu akkumulyatoru solnechnogo teplovogo raketnogo dvigatelya // Aviakosmicheskaya tekhnika i tekhnologiya. 2017. № 2. S. 44-52.
30. Koroteev A.S., Akimov V.N., Arkhangel'skii N.I., Popov S.A. Solnechnye energodvigatel'nye ustanovki — effektivnyi put' razvitiya sredstv mezhorbital'noi transportirovki // Izvestiya RAN. Energetika. 2004. № 5. S. 46-57.
31. Ageev V.P., Ostrovskii V.G. Magnitoplazmodinamicheskii dvigatel' bol'shoi moshchnosti nepreryvnogo deistviya na litii // Izvestiya RAN. Energetika. 2007. № 3. S.82-95.
32. Gribkov A.C. Tekhnologiya i energozatraty dlya kosmicheskogo proizvodstva metallicheskikh rabochikh tel raketnykh dvigatelei // Izvestiya RAN. Energetika. 2009. № 2. S. 112-117.
33. Gubanov B.I. Triumf i tragediya «Energii»: razmyshleniya glavnogo konstruktora. T. 3 «Energiya» – «Buran». Nizhnii Novgorod: NIER, 1998.
Link to this article
You can simply select and copy link from below text field.
