Search Results for “Dibrivny O. V.” – Collected book of scientific-technical articles https://journal.yuzhnoye.com Space technology. Missile armaments Tue, 02 Apr 2024 10:33:13 +0000 en-GB hourly 1 https://journal.yuzhnoye.com/wp-content/uploads/2020/11/logo_1.svg Search Results for “Dibrivny O. V.” – Collected book of scientific-technical articles https://journal.yuzhnoye.com 32 32 3.2.2018 Possible Ways of Modernization of VEGA Launch Vehicle AVUM Stage Main Engine Assembly https://journal.yuzhnoye.com/content_2018_2-en/annot_3_2_2018-en/ Thu, 07 Sep 2023 08:42:19 +0000 https://journal.yuzhnoye.com/?page_id=30733
, Dibrivny O. Shnyakin V., Shul’ga V., Zhivotov A., Dibrivny A. M., Dibrivny O. M., Dibrivny O. M., Dibrivny O. M., Dibrivny O. M., Dibrivny O. M., Dibrivny O.
]]>

3. Possible Ways of Modernization of VEGA Launch Vehicle AVUM Stage Main Engine Assembly

Organization:

Yangel Yuzhnoye State Design Office, Dnipro, Ukraine

Page: Kosm. teh. Raket. vooruž. 2018 (2); 16-24

DOI: https://doi.org/10.33136/stma2018.02.016

Language: Russian

Annotation: The Ukrainian companies Yuzhnoye SDO and SE PA YMZ supply VG143 main engine assembly for Vega LV AVUM upper stage, which is a one-chamber LRE of 250 kg thrust with five ignitions in flight. By the present, 11 successful launches of Vega LV have been made. In the process of flight operation, there were no critical comments on engines operation. This LRE has a combination of attractive characteristics, such as high specific pulse, low mass, multiple ignitions in flight, high reliability confirmed by good results of flight test of the prototype engines. The reserve of this engine from the viewpoint of further modernization is far from being exhausted. Enhancing the capabilities of payload injection by launch vehicles into various orbits of artificial Earth satellites is the main task for the developers of ILV as a whole and for the developers of separate assemblies and systems, such as LRE being part of ILV. With consideration for the experience of prototype engines testing, we should note the following ways of main engine assembly modernization: – increasing the specific pulse due to the increase of nozzle expansion ratio; – decreasing the volume of internal manifolds and mass of chamber; – increasing the operation time; – increasing the ignitions number; – increasing the duration of pauses between ignitions and orbital functioning time. Increasing the thrust and specific pulse of Vega LV VG143 main engine assembly and AVUM stage takes place due to the use of pneumopump propellant feeding system instead of standard pressure feeding. Besides, the information is presented on RD859, RD864, RD866 and RD869 prototype engines, the data on their basic characteristics, testing and operation. The below information is of interest to LRE and LV developers.

Key words: main engine assembly, liquid rocket engine, ways of modernization, engine chamber

Bibliography:
1. Shnyakin V., Shul’ga V., Zhivotov A., Dibrivny A. Creating a new generation of space-craft liquid rocket engines basing on pneumopump propellant supply systems. Space Propulsion: International Conference. France, Bordeaux. 2012.
2. Shul’ga V. Development status and improvement methods for upper stage engines of Vega and Cyclone launch vehicles. Space Propulsion; International Conference. Germany, Cologne. 2014.
3. De Rose L., Parmigiani P., Shnyakin V., Shulga V., Pereverzyev V., Caramelli F. Main engine of the Vega fourth stage: characteristics and heritage. 4th International Conference on Launcher Technology “Space Launcher Liquid Propulsion”. Netherlands, Noordwijk. 2018.
4. Kovalenko A. N., Pereverzev V. G., Marchan R. A., Blishun Y. V. Experimental Confirmation of Feasibility of Improving Power-Mass Characteristics of LRE for Vega Launch Vehicle Upper Stage: Paper presentation at the International Scientific-Technical Conference. S. P. Korolev SGAU, 2014.
Downloads: 43
Abstract views: 
1447
Dynamics of article downloads
Dynamics of abstract views
Downloads geography
CountryCityDownloads
USA Boardman; Ashburn; Matawan; Baltimore;; Plano; Dublin; Phoenix; Phoenix; Phoenix; Phoenix; Monroe; Ashburn; Seattle; Columbus; Ashburn; Seattle; Tappahannock; San Mateo; San Mateo; San Mateo; Des Moines; Boardman; Boardman; Ashburn; Ashburn26
Singapore Singapore; Singapore; Singapore; Singapore; Singapore5
Ukraine Dnipro; Dnipro; Kyiv3
Unknown;2
Cambodia Phnom Penh1
Finland Helsinki1
France1
Canada Monreale1
Germany Falkenstein1
Romania Voluntari1
Netherlands Amsterdam1
3.2.2018 Possible Ways of Modernization of VEGA Launch Vehicle AVUM Stage Main Engine Assembly
3.2.2018 Possible Ways of Modernization of VEGA Launch Vehicle AVUM Stage Main Engine Assembly
3.2.2018 Possible Ways of Modernization of VEGA Launch Vehicle AVUM Stage Main Engine Assembly

Keywords cloud

Your browser doesn't support the HTML5 CANVAS tag.
]]>
2.2.2018 Yuzhnoye SDO-Developed Upper Stage Liquid Rocket Engines https://journal.yuzhnoye.com/content_2018_2-en/annot_2_2_2018-en/ Thu, 07 Sep 2023 08:39:40 +0000 https://journal.yuzhnoye.com/?page_id=30729
, Dibrivny O. V., Dibrivny O. V., Dibrivny O. V., Dibrivny O. V., Dibrivny O. V., Dibrivny O. V., Dibrivny O.
]]>

2. Yuzhnoye SDO-Developed Upper Stage Liquid Rocket Engines

Organization:

Yangel Yuzhnoye State Design Office, Dnipro, Ukraine

Page: Kosm. teh. Raket. vooruž. 2018 (2); 8-15

DOI: https://doi.org/10.33136/stma2018.02.008

Language: Russian

Annotation: One of the important directions in the development of Yuzhnoye SDO liquid rocket engines is creation of the engines for launch vehicle upper stages, boosters, space tugs and takeoff-and-landing vehicles. The article presents an overview of Yuzhnoye SDO – developed liquid rocket engines, their basic characteristics, distinctive features and the current status of development and operation. The article presents the information on the following engines: RD858 and RD859 operating on storable propellants, for lunar takeoff-and-landing Block E module; RD809M and RD809K operating on liquid oxygen + kerosene created on the basis of RD8 serial control engine of Zenit launch vehicle second stage. In this case, RD809M engine is RD8 version with tight integration and RD809K engine is its one-chamber version; RD805 engine operating on liquid oxygen + kerosene created on the basis of combustion chamber of RD8 serial control engine of Zenit launch vehicle second stage.; RD835 engine operating on liquid oxygen + kerosene created for the second stages of launch vehicles of Mayak type; the engines and propulsion systems operating on storable propellants, such as RD861K (main engine of Cyclone-4 third stage and Cyclone-4M launch vehicle second stage), DU802 (liquid propulsion system of Krechet autonomous space tug of conversion Dnepr launch vehicle), RD840 (apogee liquid rocket engine of liquid propulsion system of geostationary communication satellite bus), VG143 (main engine assembly of the fourth stage of European Vega launch vehicle), RD864 and RD869 (main engines of Dnepr launch vehicle upper stages). The information presented in the article is of interest to liquid rocket engines and launch vehicles developers.

Key words: main engine, engine development test, takeoff-and-landing module, pneumatic pump unit

Bibliography:
1. Liquid Rocket Engines, Propulsion Systems, Onboard Power Sources Developed by Propulsion Systems Design Office of Yuzhnoye SDO / Under scientific editorship of S. N. Konyukhov, Academician of NAS of Ukraine, V. N. Shnyakin, Candidate of Engineering Science. Dnepropetrovsk, 2008. 466 p.
2. Liquid Rocket Engines. Description and Basic Technical Data / Under scientific editorship of S. N. Konyukhov, Academician of NAS of Ukraine, V. N. Shnyakin, Candidate of Engineering Science. Dnepropetrovsk, 1996. 84 p.
3. Prokopchuk A. A. et al. New Possibilities for Creation of Apogee Propulsion Systems with Pneumopump Propellant Supply System. Paper presentation at Conference “Space Propulsion”, 2018, Spain.
4. Shnyakin V. N., Shulga V. A., Dibrivny A. V. Possibilities of Creating New LRE Based on Mature Technologies. Space Technology. Missile Armaments: Collection of scientific-technical articles. 2011. Issue 2. P. 61-71.
Downloads: 57
Abstract views: 
498
Dynamics of article downloads
Dynamics of abstract views
Downloads geography
CountryCityDownloads
USA Boardman; Ashburn; Hempstead; Matawan; Baltimore; Boydton; Boydton; Plano; Miami; Phoenix; Phoenix; Phoenix; Phoenix; Ashburn; Monroe; Ashburn; Ashburn; San Antonio; San Antonio; Seattle; Seattle; Seattle; Ashburn; Boardman; Seattle; Tappahannock; Portland; San Mateo; San Mateo; Ashburn; Des Moines; Boardman32
Singapore Singapore; Singapore; Singapore; Singapore; Singapore; Singapore; Singapore7
Germany Limburg an der Lahn;;; Falkenstein4
Ukraine Lviv; Kyiv; Dnipro3
Canada Toronto; Monreale2
China Shanghai1
Finland Helsinki1
Unknown1
Bangladesh Dhaka1
Great Britain London1
France1
Romania Voluntari1
Netherlands Amsterdam1
Bulgaria Sofia1
2.2.2018 Yuzhnoye SDO-Developed Upper Stage Liquid Rocket Engines
2.2.2018 Yuzhnoye SDO-Developed Upper Stage Liquid Rocket Engines
2.2.2018 Yuzhnoye SDO-Developed Upper Stage Liquid Rocket Engines

Keywords cloud

Your browser doesn't support the HTML5 CANVAS tag.
]]>
1.2.2018 Design Office of Liquid Rocket Engines is 60 https://journal.yuzhnoye.com/content_2018_2-en/annot_1_2_2018-en/ Thu, 07 Sep 2023 08:19:39 +0000 https://journal.yuzhnoye.com/?page_id=30723
, Dibrivny O. A., Dibrivny O. A., Dibrivny O. A., Dibrivny O. A., Dibrivny O. A., Dibrivny O. A., Dibrivny O.
]]>

1. Design Office of Liquid Rocket Engines is 60

Organization:

Yangel Yuzhnoye State Design Office, Dnipro, Ukraine

Page: Kosm. teh. Raket. vooruž. 2018 (2); 3-7

DOI: https://doi.org/10.33136/stma2018.02.003

Language: Russian

Annotation: During 60 years of existence of specialized Liquid Rocket Engines Design Office – DO-4 as a part of Yuzhnoye Design Office, extensive experience was accumulated in development of liquid rocket engines of various purpose on storable and cryogenic propellant components. The required test benches and production base were created. When developing the engines, the DO-4 specialists widely use the experience accumulated during manufacturing and testing of the engines developed by the other design offices for Yuzhnoye SDO LVs that were manufactured by SE PA Yuzhny Machine-Building Plant and tested at Yuzhnoye SDO’s and Plant’s test benches. Along with the conventional ones, new original engine designs were developed to achieve high energy-mass characteristics, reliability and quality. Among them we should mention the RD858 and RD859 engines for the soviet lunar take-off-and –landing module of Block E, the unique RD857 and RD862 engines with afterburning of reducing generator gas and gas dynamic method of thrust vector control, the RD866 multifunctional engine of space tug ensuring multiple ignition in flight, and many others. At present, Yuzhnoye SDO jointly with SE PA Yuzhny Machine-Building Plant deliver the engine for the European Vega LV forth stage propulsion system under the contract with Avio company (Italy). Based on Yuzhnoye SDO–created engines, propulsions systems for ballistic missiles and space rockets that are unique by their characteristics and scope of functions, the engines, propulsions systems for spacecraft, LV upper stages and transfer orbit stages can be developed in short terms and at minimal costs.

Key words: liquid rocket engine, developed engines, testing, Yuzhnoye SDO, accumulated experience

Bibliography:
1. Liquid Rocket Engines, Propulsion Systems, Onboard Power Sources Developed by Propulsion Systems Design Office of Yuzhnoye SDO / Under scientific editorship of S. N. Konyukhov, Academician of NAS of Ukraine, V. N. Shnyakin, Candidate of Engineering Science. Dnepropetrovsk, 2008. 466 p.
2. Shnyakin V. N., Shulga V. A., Dibrivny A. V. Possibilities of Creating New LRE Based on Mature Technologies. Space Technology. Missile Armaments: Collection of scientific-technical articles. 2011. Issue 2. P. 61-71.
Downloads: 46
Abstract views: 
308
Dynamics of article downloads
Dynamics of abstract views
Downloads geography
CountryCityDownloads
USA Boardman; Ashburn; Matawan; Baltimore; Plano; Columbus; Detroit; Phoenix; Phoenix; Phoenix; Monroe; Ashburn; Ashburn; Seattle; Seattle; Ashburn; Ashburn; Seattle; Seattle; Tappahannock; Portland; San Mateo; San Mateo; Des Moines; Boardman; Boardman; Ashburn27
Singapore Singapore; Singapore; Singapore; Singapore; Singapore; Singapore; Singapore7
Unknown;2
Morocco Casablanca1
Indonesia Medan1
Cambodia Phnom Penh1
China Pekin1
Finland Helsinki1
Canada Monreale1
Germany Falkenstein1
Romania Voluntari1
Netherlands Amsterdam1
Ukraine Dnipro1
1.2.2018 Design Office of Liquid Rocket Engines is 60
1.2.2018 Design Office of Liquid Rocket Engines is 60
1.2.2018 Design Office of Liquid Rocket Engines is 60

Keywords cloud

Your browser doesn't support the HTML5 CANVAS tag.
]]>