Search Results for “Mashchenko O. M.” – Collected book of scientific-technical articles https://journal.yuzhnoye.com Space technology. Missile armaments Tue, 02 Apr 2024 12:02:05 +0000 en-GB hourly 1 https://journal.yuzhnoye.com/wp-content/uploads/2020/11/logo_1.svg Search Results for “Mashchenko O. M.” – Collected book of scientific-technical articles https://journal.yuzhnoye.com 32 32 13.2.2017 Experience in Development of Isolating Fuel Valve with Pneumatic Drive and Hydraulic Brake for Operation under Cryogenic Conditions https://journal.yuzhnoye.com/content_2017_2/annot_13_2_2017-en/ Wed, 09 Aug 2023 11:35:12 +0000 https://journal.yuzhnoye.com/?page_id=29836
, Mashchenko O. O., Mashchenko O. O., Mashchenko O. O., Mashchenko O. O., Mashchenko O. O., Mashchenko O. O., Mashchenko O.
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13. Experience in Development of Isolating Fuel Valve with Pneumatic Drive and Hydraulic Brake for Operation under Cryogenic Conditions

Organization:

Yangel Yuzhnoye State Design Office, Dnipro, Ukraine

Page: Kosm. teh. Raket. vooruž. 2017 (2); 65-69

Language: Russian

Annotation: To support ignition of Taurus LV first stage core structure engine, an oxidizer dividing valve has been developed that ensures minimal hydraulic resistance, opening time and hydraulic impact. The paper considers the valve design, main phases of its ground development testing and basic critical comments on the design made in the process of manufacturing and testing.

Key words:

Bibliography:
1. Report on the Results of Isolation Valve Check Tests Taurus-II.21.17039.203ОТ / Yuzhnoye SDO. Dnepropetrovsk, 2011. 30 p.
2. Report on the Results of Isolation Valve Check Tests Taurus-II.21.17050.203ОТ / Yuzhnoye SDO. Dnepropetrovsk, 2011. 23 p.
3. Report-Conclusion on the Results of Isolation Valve Developmental Tests 2TRS2S1.94.7204.0000.0000.00.0 ОЗ / Yuzhnoye SDO. Dnepropetrovsk, 2011. 161 p.
Downloads: 39
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13.2.2017 Experience in Development of Isolating Fuel Valve with Pneumatic Drive and Hydraulic Brake for Operation under Cryogenic Conditions
13.2.2017 Experience in Development of Isolating Fuel Valve with Pneumatic Drive and Hydraulic Brake for Operation under Cryogenic Conditions
13.2.2017 Experience in Development of Isolating Fuel Valve with Pneumatic Drive and Hydraulic Brake for Operation under Cryogenic Conditions
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4.2.2017 Increase of LV Payload Capability through Enhancement of Propulsion System Pneudraulic System Characteristics https://journal.yuzhnoye.com/content_2017_2/annot_4_2_2017-en/ Tue, 08 Aug 2023 12:33:25 +0000 https://journal.yuzhnoye.com/?page_id=29746
Mashchenko A.
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4. Increase of LV Payload Capability through Enhancement of Propulsion System Pneudraulic System Characteristics

Organization:

Yangel Yuzhnoye State Design Office, Dnipro, Ukraine

Page: Kosm. teh. Raket. vooruž. 2017 (2); 19-24

Language: Russian

Annotation: The main directions of upgrading the pneumohydraulic systems are considered. Some methods of increasing their operability and reliability are analyzed.

Key words:

Bibliography:
1. Belyayev N. M. Rocket Propellant Tanks Pressurization Systems. М., 1976.
2. Kozlov A. A., Novikov V. N., Solov’yov E. V. Liquid Rocket Propulsion Systems Feeding and Control Systems. М., 1988.
3. Patent 51806, Ukraine, MPK В64Д 37/00. Rocket Propellant Tank Pressurization Method / B. A. Shevchenko, Y. A. Mitikov, А. I. Logvinenko (Ukraine). Applicant and patent holder Yuzhnoye SDO. No. 2000031474; Claimed 15.03.2002; Published 16.12.2002, Bulletin No. 12.
4. Patent 72330, Ukraine, MPK F02K 9/44, F02K 11/00. Method of Propellant Residues Utilization in Liquid Rocket Propulsion System / G. M. Ivanitsky, S. N. Kubanov, А. I. Logvinenko, G. I. Yushin (Ukraine); Applicant and patent holder Yuzhnoye SDO. No. 200210267; Claimed 16.12.2002; Published 15.02.2005, Bulletin No. 2.
5. Logvinenko A. I. Evolution Tendencies of LV Propellant Tanks Pressurization Systems. Paper presentation at IAA Congress (Fukuoka, Japan, October 2005). Dnepropetrovsk, 2005.
6. Mashchenko A. N., Logvinenko A. I. Passivation of LV Upper Stages Propellant Systems: Effective Means of Space Debris Control. Paper presentation at IAA Congress (Hyderabad, India, October 2007). Dnepropetrovsk, 2007.
Downloads: 39
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267
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4.2.2017 Increase of LV Payload Capability through Enhancement of Propulsion System Pneudraulic System Characteristics
4.2.2017 Increase of LV Payload Capability through Enhancement of Propulsion System Pneudraulic System Characteristics
4.2.2017 Increase of LV Payload Capability through Enhancement of Propulsion System Pneudraulic System Characteristics
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3.2.2017 Creation of Advanced Facilities for Spacecraft / Launch Vehicle Integration https://journal.yuzhnoye.com/content_2017_2/annot_3_2_2017-en/ Thu, 27 Jul 2023 12:27:57 +0000 https://journal.yuzhnoye.com/?page_id=29739
, Mashchenko O. O., Mashchenko O. O., Mashchenko O. O., Mashchenko O. O., Mashchenko O. O., Mashchenko O. O., Mashchenko O.
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3. Creation of Advanced Facilities for Spacecraft / Launch Vehicle Integration

Organization:

Yangel Yuzhnoye State Design Office, Dnipro, Ukraine

Page: Kosm. teh. Raket. vooruž. 2017 (2); 12-18

Language: Russian

Annotation: The paper is about the development by Yuzhnoye SDO of modern integration means, namely devices for spacecraft attachment and separation to/from the launch vehicles that meet the high requirements of present-day launch services market and ensure highly reliable spacecraft separation with minimal disturbances.

Key words:

Bibliography:

1 Kobelev V. N. Spacecraft Injection Means / V. N. Kobelev, А. G. Milovanov. М., 2009. 528 p.
2. Daniel Mugnier. ARIANE 4. Users’s Manual. ARIANSPACE. France, 1999.
3. Daniel Mugnier. ARIANE 5. Users’s Manual. ARIANSPACE. France, 2000.
4. DELTA IV. Payload Planners Guide. The Boeing Company. United Launch Alliance. 1999. 270 p.

Downloads: 40
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3.2.2017 Creation of Advanced Facilities for Spacecraft / Launch Vehicle Integration
3.2.2017 Creation of Advanced Facilities for Spacecraft / Launch Vehicle Integration
3.2.2017 Creation of Advanced Facilities for Spacecraft / Launch Vehicle Integration
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7.1.2019 Experience of Development and Use of Generator Pressurization System for Tanks of Launch Vehicles on High-Temperature Propellants https://journal.yuzhnoye.com/content_2019_1-en/annot_7_1_2019-en/ Thu, 25 May 2023 12:09:38 +0000 https://journal.yuzhnoye.com/?page_id=27712
, Mashchenko O. I., Mashchenko O. I., Mashchenko O. I., Mashchenko O. I., Mashchenko O. I., Mashchenko O. I., Mashchenko O.
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7. Experience of Development and Use of Generator Pressurization System for Tanks of Launch Vehicles on High-Temperature Propellants

Organization:

Yangel Yuzhnoye State Design Office, Dnipro, Ukraine

Page: Kosm. teh. Raket. vooruž. 2019, (1); 45-53

DOI: https://doi.org/10.33136/stma2019.01.045

Language: Russian

Annotation: Long-term experience in development, development testing and use of generating systems of fuel tanks pressurization for rockets powered by nitrogen tetroxide and unsymmetrical dimethylhydrazine is summarized. Replacement of gas bottle pressurization systems with generating ones on such launch vehicles as 15A14, 15A15, 11K68 (8K67), 15A18M substantially simplified operation, reduced the pneumohydraulic feed system mass at least twice and its cost – by five times. Typical stages of development and introduction of the pressurization generating systems are shown: development of generators, their development testing, study of the composition and parameters of gas. The important steps were the development of methodology for pressurization system parameters calculation, which enabled achievement of the substantial improvements of their characteristics, appearance of the high-performance hightemperature (up to ~ 1000o C) unsymmetrical dimethylhydrazine tank pressurization system, study of the degree of impact of each of the pressurization system parameters on the tank pressure. Accounting of the correlation between the flow rate and the generator gas temperature improved the output performance, as well as simplified and reduced the amount of development testing of the pressurization system. Important role of the gas sprayer design in pressurization system parametric configuration is described, and the advanced versions are shown taking into account g-loads, changes in temperature, pressure and propellant level inside the tank. Significant phase in the development of the generating pressurization system was the effective use of the high-temperature pressurization of the fuel tank with submerged propulsion system. Besides for the first time the effect of mechanical temperature destratification of the propellant in the tanks was observed, which occurs during the propulsion systems shutdown. Due to this effect, the Dnepr LV payload capability enhanced. Successful engineering solutions in the design of the pressurization system were defended by ~80 copyright certificates and patents of invention, ~40 of which were successfully implemented.

Key words: gas generator, sprayer, propulsion system, tank, gas pressure, gas temperature

Bibliography:

1. Belyaev N. M. Systemy nadduva toplivnykh bakov raket. M.: Mashinostroenie, 1976. 336 p.
2. Logvinenko A. I. Osnovnyie napravlenia sovershenstvovania PGS sovremennykh RN / Dokl. Mezhd. astronavt. kongress. IAA. C4.1 IAC-63. Naples, Italia, 2012.
3. Kozlov A. A., Novikov V. N., Soloviev Ye. V. Systemy pitania i upravlenia zhidkostnykh raketnykh dvigatelnykh ustanovok. M.: Mashinostroenie, 1988. 352 p.
4. Logvinenko A. I. Tendentsii razvitia system nadduva toplivnykh bakov RN// Tez. dokl. Mezhdunar. astronavt. congressa IAC–05–C4.1.10, IAC-56. Fukuoka, Japan, 2005.
5. Logvinenko A. Gas-generation pressurization system experimental development method of the LV propellant tanks / Acta Astronautica. 2009. AA3161. №64. Р. 84-87. https://doi.org/10.1016/j.actaastro.2008.06.008
6. Ivanitskiy G. M., Logvinenko A. I., Tkachev V. A. K voprosu rascheta temperatury gazanadduva v bakakh raket / Systemne proektuvannya aerokosmichnoi techniki. 2001. T. III. P. 44-47.
7. Pat. 72330 Ukraina, MPK (2006) F02K 9/44 (2006.1), F02K 11/00, В64Д 37/00. Sposib vyroblennya zalyshku palyva v rushiniy ustanovtsi riddinoi rakety/ Ivanitskiy G. M., Kubanov S. M., Logvinenko A. I., Yushin G. I.; zayavnil I vlasnyk DP KB “Pivdenne”. №20021210267; zayvl. 18.12.2002; opubl. 15.02.2005, Bul. №2/2005.
8. Voloshin M. L., Kuda S. A., Mikhalchishin R. V. Complex meropriyatiy po povysheniyu energeticheskykh kharakteristic RN// Kosmicheskaya technika. Raketnoye vooruzhenie: Sb. nauch.-techn. st. Dnepr: GP KB «Yuzhnoye». 2017. Vyp. 2. P. 29-34.

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7.1.2019 Experience of Development and Use of Generator Pressurization System for Tanks of Launch Vehicles on High-Temperature Propellants
7.1.2019 Experience of Development and Use of Generator Pressurization System for Tanks of Launch Vehicles on High-Temperature Propellants
7.1.2019 Experience of Development and Use of Generator Pressurization System for Tanks of Launch Vehicles on High-Temperature Propellants

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Editorial board-old https://journal.yuzhnoye.com/editorial-board-en-old/ Sat, 13 May 2023 16:40:20 +0000 https://test8.yuzhnoye.com/?page_id=26177
MASHCHENKO, Yangel Yuzhnoye State Design Office, Dnepr A.
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Editorial board

EDITOR-IN-CHIEF

A. V. DEGTYAREV, Doctor of Engineering Science, Yangel Yuzhnoye State Design Office, Dnepr

DEPUTY EDITOR-IN-CHIEF

A. E. KASHANOV, Candidate of Engineering Science, Yangel Yuzhnoye State Design Office, Dnepr

EXECUTIVE EDITOR OF THE EDITORIAL BOARD

V. P. SAVCHENKO, Yangel Yuzhnoye State Design Office, Dnepr

MEMBERS OF THE EDITORIAL BOARD

F. GRAZIANI, Professor and President of Aerospace, Rome
A. P. KUSHNAREV Yangel Yuzhnoye State Design Office, Dnepr
V. M. SIRENKO, Candidate of Engineering Science, Yangel Yuzhnoye State Design Office, Dnepr
V. I. KONOKH, Candidate of Engineering Science, Yangel Yuzhnoye State Design Office, Dnepr
A. N. LOGINOV, Yangel Yuzhnoye State Design Office, Dnepr
G. A. MAIMUR, Candidate of Engineering Science, Yangel Yuzhnoye State Design Office, Dnepr
A. L. MAKAROV, Candidate of Engineering Science, Yangel Yuzhnoye State Design Office, Dnepr
O. M. MASHCHENKO, Yangel Yuzhnoye State Design Office, Dnepr
A. V. NOVIKOV, Candidate of Engineering Science, Professor, Yangel Yuzhnoye State Design Office, Dnepr
A. M. POTAPOV, Candidate of Engineering Science, Yangel Yuzhnoye State Design Office, Dnepr
A. F. SANIN, Doctor of Engineering Science, Professor, Oles Honchar Dnipro National University
V. D. TKACHENKO, Yangel Yuzhnoye State Design Office, Dnepr
V. S. KHOROSHILOV, Doctor of Engineering Science, Professor, Yangel Yuzhnoye State Design Office, Dnepr
A. D. SHEPTUN, Doctor of Engineering Science, Docent, Yangel Yuzhnoye State Design Office, Dnepr

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