Museum of Space and Missile Technology (Saint Petersburg). RD-214 rocket engine for Сosmos LV first stage.
|Country of origin||USSR|
|Manufacturer||Plant No. 19 named after I. V. Stalin|
|Associated L/V||R-12 and Kosmos-2|
|Propellant||AK-27I / TM-185|
|Thrust (vac.)||730.2 kilonewtons (164,200 lbf)|
|Thrust (SL)||635.2 kilonewtons (142,800 lbf)|
|Chamber pressure||4.36 megapascals (632 psi)|
|Isp (vac.)||264 s (2.59 km/s)|
|Isp (SL)||230 s (2.3 km/s)|
|Burn time||140 s|
|Length||2,380 millimetres (94 in)|
|Diameter||1,480 millimetres (58 in)|
|Dry weight||655 kilograms (1,444 lb)|
|R-12 and Kosmos-2|
The RD-214 (GRAU Index 8D59) was a liquid rocket engine, burning AK-27I (a mixture of 73% Nitric acid + 27% N2O4 + iodine passivant and TM-185 (a kerosene and gasoline mix) in the Gas Generator cycle. As was the case with many V-2 influenced engines, the single turbine was driven by steam generated by catalytic decomposition of H2O2. It also had four combustion chambers and vector control was achieved by refractory vanes protruding into the nozzles exhaust.
- Development 1
- Versions 2
- See also 3
- References 4
- External links 5
After the WWII, the Soviet engineeriers tried to absorb and further develop the German rocketry technology. For the requirements to have storable propellants and higher thrust, Glushko's OKB-456 developed the RD-211, which had four combustion chambers, each having twice the thrust of the RD-100, itself a Russian adaptation of the V-2 A-4 engine. The four chambers were fed from a single turbopump which, also like its German inspiration, was feed by steam generated from catalytic decomposition of H2O2. When then came the requirement for the Buran cruise missile project, a version for that application was developed in the RD-212. Regrettably, both RD-211 and RD-212 proved too week for the application and the project were abandoned for the RD-213 for Buran. When Yangel's OKB-586 was tasked with developing the first storable propellant ballistic missile in the Soviet arsenal, the RD-211 proved too weak. Thus, the project was definitely abandoned and the more powerful RD-214 was developed. While Korolev refusal to use toxic propellants basically left him out of the ballistic missile development race, the basic design of the RD-211 also served as basis for the RD-107/RD-108 engine, which went to be the most flown rocket engines in history.
The initial R-12 was a pad launched missile. It had significant operative issues on readiness and vulnerability. Thus, the silo launched R-12U was developed. For this development the RD-214U was developed. When Yangel used the R-12U as the basis for the Kosmos-2 63S1, the RD-214F was developed and fire tested, but in the end the stock R-12U was used as first stage. So it was for all subsequent 63S1M and 11K63.
This engine many versions:
- RD-211: GRAU Index 8D57. Original design for the R-12. Based on the RD-100, itself an adaptation of the V-2 A4 engine. This engine already had four separate combustion chambers, an H2O2 steam driven turbine and required vanes in the exhaust to control the rocket.
- RD-212: GRAU Index 8D41. Originally developed from the RD-211 for the Buran cruise missile project. Project drop in favor of RD-213 due to insufficient thrust.
- RD-213: GRAU Index 8D13. Similar to the RD-214. Developed for the Buran cruise missile project. Cancelled with the project.
- RD-214: GRAU Index 8D59. Original version of the engine designed for the R-12 (8K63).
- RD-214U: GRAU Index 8D59. Improved version of the engine. Flew on the R-12U (8K63S) and Kosmos-2 (11K63) launch vehicle.
- RD-214F: GRAU Index 11D45. Project for the initial version of Kosmos-2 (63S1).
|Engine Type||Gas Generator|
|Propellant||AK-27I (73% Nitric acid + 27% N2O4 + iodine passivant) / TM-185 (a kerosene and gasoline mix)|
|Combustion Chamber Pressure||3.923 megapascals (569.0 psi)||3.923 megapascals (569.0 psi)||4.66 megapascals (676 psi)||4.36 megapascals (632 psi)||4.36 megapascals (632 psi)||4.38 megapascals (635 psi)|
|Thrust (Vacuum)||642.3 megapascals (93,160 psi)||622.7 megapascals (90,310 psi)||749.2 megapascals (108,660 psi)||730.2 kilonewtons (164,200 lbf)||730.6 kilonewtons (164,200 lbf)||729.6 kilonewtons (164,000 lbf)|
|Thrust (Sea Level)||549.2 megapascals (79,650 psi)||559 megapascals (81,100 psi)||686.5 megapascals (99,570 psi)||635.2 kilonewtons (142,800 lbf)||635.5 kilonewtons (142,900 lbf)||635.5 kilonewtons (142,900 lbf)|
|Isp (Vacuum)||253 s (2.48 km/s)||254 s (2.49 km/s)||264 s (2.59 km/s)||264 s (2.59 km/s)||264 s (2.59 km/s)||264 s (2.59 km/s)|
|Isp (Sea Level)||224 s (2.20 km/s)||227 s (2.23 km/s)||231 s (2.27 km/s)||230 s (2.3 km/s)||230 s (2.3 km/s)||230 s (2.3 km/s)|
|Length||2,700 millimetres (110 in)||2,500 millimetres (98 in)||2,500 millimetres (98 in)||2,380 millimetres (94 in)||2,380 millimetres (94 in)||2,380 millimetres (94 in)|
|Diameter||1,650 millimetres (65 in)||1,480 millimetres (58 in)||1480|mm|in}||1,500 millimetres (59 in)||1,480 millimetres (58 in)||1,480 millimetres (58 in)|
|Dry Weight||635 kilograms (1,400 lb)||642 kilograms (1,415 lb)||625 kilograms (1,378 lb)||655 kilograms (1,444 lb)||655 kilograms (1,444 lb)||655 kilograms (1,444 lb)|
|Use||R-12 (8K63) Project||Buran Project||Buran Project||R-12 (8K63)||
|Project for Kosmos-2 (63S1)|
- R-12 (missile) - Ballistic missile for which this engine was originally developed for.
- Kosmos-2 - launch vehicle that is uses an R-12 as first stage.
- Rocket engine using liquid fuel
- "NPO Energomash list of engines". NPO Energomash. Retrieved 2015-06-26.
- "RD-214". Encyclopedia Astronautica. Retrieved 2015-06-26.
- "Nitric acid/Kerosene". Encyclopedia Astronautica. Retrieved 2015-06-26.
- "Soviet rocket's engines (NPO Energomash)". Buran-Energia.com. Retrieved 2015-06-27.
- "R-12". Encyclopedia Astronautica. Retrieved 2015-06-26.
- "RD-211". Encyclopedia Astronautica. Retrieved 2015-06-26.
- "RD-212". Encyclopedia Astronautica. Retrieved 2015-06-26.
- "RD-213". Encyclopedia Astronautica. Retrieved 2015-06-26.
- Zak, Anatoly. "Kosmos-2". RussianSpaceWeb.com. Retrieved 2015-06-26.
- NPO Energomash official site.