Scientific, technical and methodic support of space and rocket technology development and operation

Heading: 
Social Sciences in Space Exploration
1Pylypenko, OV
1Institute of Technical Mechanics of the National Academy of Sciences of Ukraine and the State Space Agency of Ukraine, Dnipro, Ukraine
Kosm. nauka tehnol. 2014, 20 ;(6):35-48
https://doi.org/10.15407/knit2014.06.035
Publication Language: Ukrainian
Abstract: 

Some results of scientific, technical and methodic support for research and design work on development and operation of space and rocket technology are reported. The studies include longitudinal stability of liquid propellant launch vehicles, support for development of the Cyclon-4 space rocket complex, interactions between the spacecraft and ionosphere, the aerogasdynamic and thermal characteristics of spacecraft at the stage of the Earth’s upper atmosphere entry, aerogasdynamics and heat and mass exchange of space vehicles, the strength and stability of structural elements of space rockets under local loads and contact interactions, dynamics of spacecraft, space-based large-scale transformed structures, and systems for space debris prevention in the near-Earth space
Keywords: aerogasdynamics, Cyclon-4, space-rocket technique, transformed structures
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References: 

1. Alpatov A. P. Movable control of mechanical systems. 246 p. (Nauk. dumka, Kyiv, 1998) [in Russian].
2. Alpatov A. P., Bass V. P., Baulin S. A. et al. Anthropogenic debris in near-Earth space: Sector Guide. 378 p. (Porogi, Dnepropetrovsk, 2012) [in Russian].
3. Alpatov A. P., Beleckij V. V., Dranovskij V. I. et al. Rotational motion of the space tether systems. 404 p. (ITM NAS of Ukraine i NSA of Ukraine, Dnepropetrovsk; Vienna; Kiev; Moscow, 2001) [in Russian].
4. Alpatov А. Р., Beletsky V. V., Dranovskii V. I., et al. Dynamics of Space Systems Joined by Tethers and Hinges. 560 p. (NIC «Reguljarnaja i haoticheskaja dinamika», Moscow; Izhevsk, 2007) [in Russian].
5. Alpatov A.P., Byelonozhko P.A., Byelonozhko P.P., et al. Synthesis features of the space manipulator control system.  Problems of nonlinear analysis in engineering systems, 18, N 2 (38), 80—103 (2012) [in Russian].
6. Alpatov A. P., Prokopchuk Ju. A., Jushhenko O. V. et al. Information technology in education and health. 287 p. (ITM NASU, Dnepropetrovsk, 2008) [in Russian].
7. Alpatov A. P., Sen'kin V. S. Methodological support for image selection, optimization of design parameters and program control of launch vehicle flight.  Tekhicheskaya Mekhanika,  № 4, 146—161 (2013) [in Russian].
8. Bass V. P. Molecular gas dynamics and its applications in the rocket and space technology.  372 p. (Nauk. dumka, Kyiv, 2008) [in Russian].
9. Bashlij I. D., Nikolaev A. D. Mathematical modeling of spatial oscillations of the liquid shell structures using modern computer-aided design and analysis. Tekhicheskaya Mekhanika,  № 2, 18—25 (2013) [in Russian].
10. Bogomaz G. I., Naumenko N. E., Sobolevskaja M. B. et al. The dynamics of the start of liquid launch vehicles and spacecrafts.  248 p. (Nauk. dumka, Kyiv, 2005) [in Russian].
11. Bogomaz G. I., Naumenko N. E., Hizha I. Ju. The loading of structural elements of the launch vehicle during launch mortar from transport-launch container.  Visnyk Dnipropetrovs'kogo un-tu. Ser. Mehanika. No. 2/2, 11—17 (2006) [in Russian].
12. Galinskiy V. P., Timoshenko V. I. Problems in developing scientific methods for calculating aerodynamic parameters of boost vehicles.  Space science and technology, 4 (2/3), 64—72 (1998) [in Russian].
https://doi.org/10.15407/knit1998.02.064
13. Gudramovych V. S., Gaiduchenko A. P., Kovalenko A. I. Electroforming-Based Technologies for Manufacturing Antenna-Waveguide and Solar Power Devices. Space science and technology, 7 (2/3), 66—77 (2001) [in Russian].
 

14. Pilipenko V. V. Cavitation oscillations. 316 p. (Nauk. dumka, Kiev,  1989) [in Russian].
15. Pilipenko V.V., Dovgot'ko N.I., Dolgopolov S.I., et al. Theoretical Evaluation of the Amplitudes of POGO Vibrations in Liquid Propellant Launch Vehicles. Space science and technology, 5 (1), 90—96 (1999) [in Russian].
https://doi.org/10.15407/knit1999.01.090
16. Pilipenko V. V., Dovgot'ko N. I., Pilipenko O. V. et al. Theoretical predictions of the longitudinal vibration accelerations of the spacecraft during its delivering into a working orbit by the "Cyclone-4" liquid space rocket. Tekhicheskaya Mekhanika. No. 4, 30—36 (2011) [in Russian].
17. Pilipenko V. V., Dovgot'ko N. I., Pylypenko O. V. Studies on the dynamics of liquid rocket propulsion systems, and longitudinal stability of liquid rockets. Tekhicheskaya Mekhanika. No. 4, 16—29 (2011) [in Russian].
18. Pilipenko V. V., Zadoncev V. A., Dovgot'ko N. I. et al. Динамика жидкостных ракетных двигательных установок и продольная устойчивость жидкостных ракет-носителей. Tekhicheskaya Mekhanika. No. 2, 11 — 37 (2001) [in Russian].
19. Pilipenko V. V., Zadoncev V. A., Natanzon M. S. Cavitation oscillations and dynamics of hydraulic systems. 352 p. (Mashinostroenie, Moscow, 1977) [in Russian].

20. Pilipenko O. V., Zavoloka A. N., Nikolaev A. D. et al. Efficiency within the lateral devices to ensure the continuity of the fuel components in the fuel system sustainer propulsion stages of launch vehicles.  Ajerogazodinamika: problemy i perspektivy: Sb. nauch. tr.  Issue 2, 88—100 (2006) [in Russian].
21. Prokopchuk Iu.A. Principle of Limiting Generalizations: Methodology, Problems, and Applications: Monograph. 384 p.  (Institute of Technical Mechanics of the National Academy of Sciences of Ukraine and the State Space Agency of Ukraine, Dnepropetrovsk ,2012) [in Russian].
22. Sarychev A. P. Identification of the state of structurally uncertain systems. 268 p. (ITM NANU i NKAU, Dnepropetrovsk, 2008) [in Russian].
23. Timoshenko V.I., Agarkov A.V., Moshnenko Yu.I., et al. Problems of Thermostatic Control and Spacecraft Safety at the Pre-Launch Period and During Orbital Injection. Kosm. nauka tehnol., 5 (5/6), 56—64 (1999) [in Russian].
https://doi.org/10.15407/knit1999.05.056
24. Timoshenko V.I., Gusynin V.P. Use of hypersonic technologies in creating promising transport space systems. Kosm. nauka tehnol., 5 (1), 97—107 (1999) [in Russian].
https://doi.org/10.15407/knit1999.01.097
25. Tymoshenko V.I., Knyshenko Yu.V. Unstready fluid flows in complex manifold systems.  Aerospace technic and technology, 92(5), 47—57 (2012) [in Russian].
26. Shuvalov V.A., Korepanov V.E., Lukenyuk A.A., et al. Modeling of probe measurements of plasma environment parameters onboard the spacecraft «Sich-2». Kosm. nauka tehnol., 18 (6), 5—13 (2012) [in Russian].
https://doi.org/10.15407/knit2012.06.005
27. Shuvalov V. A., Kochubey G. S., Bandel K. A., Priymak A. I. Fast-electron charge  transfer at downwind surfaces of spacecrafts in the Earth's polar ionosphere. Kosm. nauka tehnol.,  13 (6), 5—17 (2007) [in Russian].
https://doi.org/10.15407/knit2007.06.005
28. Shuvalov V. A., Kochubei G. S., Lazuchenkov D.N.  The plume-flows structure of spacecraft thrusters. Kosm. nauka tehnol.,  9 (4), 17— 25 (2003) [in Russian].
29. Shuvalov V.A., Kochubey G.S., .Priimak A.I., Reznichenko N.P. Degradation of the Electric Power of Solar Arrays Under the Influence of the Near-Satellite Environment in Geostationary Orbits. Kosm. nauka tehnol., 8 (4), 25—36 (2002) [in Russian].
30. Shuvalov V.A., Kochubey G.S., Priymak A.I., Pismenniy N.I.  High-altitude spacecraft power losses of solar arrays as a result of interaction with environment. Kosm. nauka tehnol., 10 (4), 39—49 (2004) [in Russian].
31. Shuvalov V.A., Kulagin S.N., Kochubei G.S., Tokmak N.A. Simulation of effects of the MHD-interaction of bodies with the Earth’s atmosphere in a rarified plasma flow.  Kosm. nauka tehnol., 17 (5), 29—36 (2011) [in Russian].
https://doi.org/10.15407/knit2011.05.029
32. Shuvalov V.A., Lazuchenkov D.N., Nosikov S.V., Kochubey G.S. Identification of earthquakes with the use of Sich-2 probe measurements of ionospheric plasma perturbations.  Kosm. nauka tehnol., 19 (5), 16—26 (2013) [in Russian].
https://doi.org/10.15407/knit2013.05.016
33. Shuvalov V.A., Levkovich O.A., Kochubey G.S. Approximate Models of Plume Flows from Electric Propulsion Engines of Spacecraft.  Kosm. nauka tehnol., 4 (5/6), 105—109 (1998) [in Russian].
https://doi.org/10.15407/knit1998.05.105
34. Shuvalov V.A., Lukenjuk A.A., Pismenny N.I., Kulagin S.N. Probe diagnostics of laboratory and ionospheric rarefied plasma flows.  Kosm. nauka tehnol., 19 (1), 13—19 (2013) [in Russian].
https://doi.org/10.15407/knit2013.01.013
35. Shuvalov V.A., Pismenny N.I., Kochubey G.S., Nosikov S.V. Power losses for solar arrays of a spacecraft in the Earth's polar ionosphere and magnetosphere.  Kosm. nauka tehnol., 17 (3), 5—15 (2011) [in Russian].
https://doi.org/10.15407/knit2011.03.005
36. Shuvalov V. A., Priymak A. I., Bandel K. A., et al. Effects of magnetohydrodynamic control in heat exchange and decelaration of magnetized bodies in the Earth's atmosphere and magnetosphere. Kosm. nauka tehnol.,  14 (4), 3—14 (2008) [in Russian].
https://doi.org/10.15407/knit2008.04.003
37. Shuvalov V.A., Bandel K.A., Priymak A.I., Kochubey G.S. Magnetohydrodynamic deceleration of «magnetized» planets in solar wind plasma. Kosm. nauka tehnol., 15 (6), 3—13 (2009) [in Russian].
https://doi.org/10.15407/knit2009.06.003
38. Shuvalov V.A., Priymak A.I., Gubin V.V., Lazuchenkov N. M. Active Plasma Protection of Spacecraft from Electroradiation Influence of the Ionosphere and Magnetosphere. Kosm. nauka tehnol., 4 (5/6), 36—40 (1998) [in Russian].
https://doi.org/10.15407/knit1998.05.036
39. Shuvalov V.A., Kochubey G.S., Priymak A.I., et al. Simulation of Radiative Electrization of Spacecraft leeward surfaces in the Ionosphere. Kosm. nauka tehnol., 7 (5/6), 30—43 (2001) [in Russian].
40. Shuvalov V. A., Priymak A. I., Reznychenko N. P., et al. Contact diagnostics of the ionosphere and laboratory plasma. Kosm. nauka tehnol., 10 (2/3), 3—15 (2004) [in Russian].
41. Shuvalov V. A., Tihiy V. G., Priymak A. I.,  et al. Degradation of polymeric materials for covering spacecraft solar arrays under exposure to atomic oxygen flows. Kosm. nauka tehnol., 11 (5/6), 78—86 (2005) [in Russian].
42. Shuvalov V. A., Tykhyy V. G., Potapovych L. P., et al. Molecular contamination of spacecraft surfaces in thermostatic control and orbital injection of launch vehicle nose cone. Kosm. nauka tehnol., 13 (3), 3—11 (2007) [in Russian].
https://doi.org/10.15407/knit2007.03.003
43. Shuvalov V.A.,Tokmak N.A.,Pismenny N.I., Kochubey G.S. Synergetic effect of atomic oxygen flow and vacuum ultra-violet flux on spacecraft polyimide films. Kosm. nauka tehnol., 18 (3), 10—19 (2012) [in Russian].
https://doi.org/10.15407/knit2012.03.010
44. Shuvalov V.A., Tokmak N.A., Tsokur A.G., Kochubey G.S. Dynamic interaction of a spacecraft with rarefied plasma in motion under a “magnetic sail”. Kosm. nauka tehnol.,  20 (3), 14—21 (2014) [in Russian].
https://doi.org/10.15407/knit2014.03.014
45. Shuvalov V. A., Bystritskii M. G., Churilov A. E. Deterioration of Radio Signals and Distortion of Spacecraft Radar Characteristics  by Plasma Jets from Electric Propulsion Engines. Kosm. nauka tehnol.,  5 (2/3), 81—92 (1999) [in Russian].
https://doi.org/10.15407/knit1999.02.081
46. Pereverzev E. S. (Ed.)  The effectiveness of Research and technical projects and programs.  509 p. (Porogi, Dnepropetrovsk, 2008) [in Russian].
47. Alpatov A. P., Beletsky V. V., Dranovskii V. I., et al. Dynamics of tethered spaсe systems. 223 p. (CRC Press, Boca Raton, FL, USA, 2010)
48. Hudramovych V. S. Features of nonlinear deformation and critical states of shell systems with geometrical imperfections.  Int. Appl. Mech42 (12), 1323—1355 (2006).
49. Martin A. R., Rodgers D. J., Kesel R. L., et al. Spaceсraft/ plasma interactions and electromagnetic effects in LEO and Polar orbits. Final Report on ESTEC Contract N 7989/88/NL/PB(SC), ESA CR (P)-3284, Vol. 1, 312 p. (1990).
50. Timoshenko V. I., Belotserkovets I. S., Gusinin V. P. Problems of providing completeness of the methane-containing block-jet combustion in a rocket ramjet engine’s combustion chamber.  Acta Astronautica.  65 (9-10), 1231—1237 (2009).
51. Timoshenko V. I., Koshkin M. I., Knyshenko J. V. Methodical support of development of increased safe life propulsion systems of a small thrust.  52nd International Astronautical Congress, 1—5 Oct., 2001, P. 78—80 (Toulouse, France, 2001).