S3 KS-25 "Vector" Liquid Fuel Engine
S3 KS-25 "Vector" Liquid Fuel Engine | ||
Liquid fuel engine by Kerbodyne | ||
Radial size | Radial mounted, Small | |
Cost | (total) | 18 000.00 |
Mass | (total) | 4.000 t |
Drag | 0.2 | |
Max. Temp. | 2000 K | |
Impact Tolerance | 22 m/s | |
Research | Very Heavy Rocketry | |
Unlock cost | 115 000 | |
Since version | 1.0.5 | |
Part configuration | SSME.cfg | |
Maximum thrust | (1 atm) | 936.51 kN |
(vacuum) | 1 000.00 kN | |
Isp | (1 atm) | 295 s |
(vacuum) | 315 s | |
Fuel consumption | 64.74 /s | |
Thrust vectoring | 10.5 ° | |
Electricity generated | 3.0 ⚡/s | |
Testing Environments | ||
On the surface | Yes | |
In the ocean | Yes | |
On the launchpad | Yes | |
In the atmosphere | Yes | |
Sub-orbital | Yes | |
In an orbit | Yes | |
On an escape | Yes | |
Docked | No | |
Test by staging | Yes | |
Manually testable | Yes |
The S3 KS-25 "Vector" liquid fuel engine is a liquid fuel engine with a single noozle . It is the heaviest and most powerful 1.25m engine by far, with a mass and thrust between that of the 2.5m "Skipper" and "Mainsail" engines. It also has a relatively high thrust to weight ratio. The engine, along with its four-nozzle counterpart, the S3 KS-25x4 "Mammoth" Liquid Fuel Engine, has moderate efficiency in vacuum and the highest specific impulse at sea level for any liquid fuel engine, making it an effective engine for S.S.T.O vehicles. Unusually, the engine is both node- and surface-attachable. The defining feature of the engine is an extremely large gimbal range of 10.5°. These advantages are somewhat offset by its comparatively high tech requirements and cost.
The name KS-25 and 10.5o gimbal are references to the Space Shuttle Main Engines which are also named RS-25 and have a 10.5o gimbal range. The SSME namesake is likewise shown in that the part files are named variants of "SSME".
It is recommended that the gimbal be reduced or locked outright on lighter craft with SAS enabled, or the gimbal can easily tear the craft apart.
Product description
“ | Kerbodyne's flagship engine, the KS-25 excels as a first stage engine through its high thrust-to-weight ratio and exceptional sea level efficiency. Kerbodyne engineers achieved this by running the engine in a staged combustion cycle and at extremely high chamber pressures. Special new alloys had to be invented to suppress the engine's tendency to become a bomb. The single version is designed with very durable components and high reusability, as well as higher gimbal range, but because of that is also heavier than its expendable counterpart used in first stage clusters. — Kerbodyne |
” |
Changes
- Initial release