The ejection envelop will encompass the region from the launch pad to Max Q. After that, the spaceliner must try to continue its climb to outer space, or try to land downrange at a designated Bingo site. The spaceliner can eject with a speed of anywhere between zero and 2 Mach and with an altitude of zero to around 80 km AGL.
Kindly note: the actual performance specifications are beyond the scope of this paper, and will be left to more knowledgeable people.
The ejection sequence should proceed as follows (Image A):
Kindly note: the actual performance specifications are beyond the scope of this paper, and will be left to more knowledgeable people.
The ejection sequence should proceed as follows (Image A):
- The two cargo doors are blown clear from the spaceliner.
- The VEM is mechanically separated from the spaceliner.
- SRBs fire from the bottom and aft portions of the VEM
- The VEM continues to increase the distance between the VEM and the crippled spaceliner
- The SRB run out of fuel
- The SRB section of the VEM falls away from the Pressurized Section
- A drogue chute is used to stabilize the Pressurized Section
- The main parachute(s) deploy to slow the descent rate of the Pressurized Section
- The covering for the Floatation Collar is jettisoned
- The Floatation Collar is inflated
Once the floatation collar has been inflated, the Pressurized Section should be able to either come down in the water or on land. Once down, a 30–person raft is deployed.
If the VEM lands in the water, the floatation collar keeps the Pressurized section afloat whilst the crew abandons ship into the raft.
If the VEM is bound for solid ground, the floatation collar is used to cushion the impact. The front of the floatation collar will open, allowing air to escape as the VEM settles to the ground. Afterwards, the crew abandons ship into the raft.
Once secured in the raft, the crew waits until the world comes to them due to the global nature of the search and rescue efforts that would surly ensue.
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