Boeing Releases Details On New Crew Capsule

FleaPlus writes "Boeing has released a number of new details on its CST-100 manned space capsule, being developed in collaboration with commercial space station builder Bigelow Aerospace. Competing with SpaceX's Dragon capsule, the vehicle is designed to be compatible with existing Atlas V, Delta IV, and Falcon 9 rockets, and is planned to carry seven people in a capsule 'a little smaller than Orion, but a little bigger than Apollo.' Funding was jump-started this year with $18M of fixed-price Commercial Crew Development money from NASA, which requires completion of several fabrication and demonstration milestones this year (heat shield, escape system, landing tests, etc.) in order to get the full payment."

Re:Competing with SpaceX on their own launcher?

[AJWM]

More like designing to a standard set of interfaces between launcher and spacecraft, which is indeed good. Just as Boeing's capsule can launch on Falcon 9 as well as Atlas V and Delta IV, then presumably SpaceX's Dragon capsule could be launched on an Atlas or Delta as well as a Falcon. If one component is ever grounded for an unforseen problem, you've got a fallback position.

It's not even that odd. Having a second source for a critical subsystem makes a lot of sense, and savvy customers tend to encourage their vendors in this direction.

Re:Competing with SpaceX on their own launcher?

[someone1234]

>Having a second source for a critical subsystem makes a lot of sense, and savvy customers tend to encourage their vendors in this direction.

It is not enough to be savvy, they need to be powerful customers who can avoid a vendor lock-in.
It helps a lot if you are a customer who can set the standards because you are the only customer.

Re:Little bigger than Apollo?

[Ravenger]

Apollo was designed to go to the moon - trips of ten days or more, and needed to carry all the consumables and equipment needed for the trip. The new capsule is designed for short duration flights to the space station, so presumably it won't need to carry lots of supplies and equipment, hence more space for crew.

Re:Little bigger than Apollo?

[DerekLyons]

Apollo was barely big enough for 3. Something only a "little" bigger is supposed to hold 7?
 
Do they sit on each other's laps?

Actually, they do practically sit in each others laps. Most people don't realize that beneath the couches of the Apollo command module was more-or-less open space - the crew slept down there during flight. Using this space to carry people was first planned back in the 1970's when they modified one command module into the Skylab rescue configuration.
 
So yes, making the capsule just a little taller and a little wider enlarges the crew compartment enough to pack in seven seats.
 
The previous posters are partly wrong on supply weight and volume though though: First, the majority of the supplies in the capsule were carried at the astronauts feet in the Lower Equipment Bay (the astronauts actually sat off center in the spacecraft), and you'll need almost the same amount for a station taxi. (The Apollo's configuration was to control the center of gravity, offsetting it controlled re-entry attitude and allowed the spacecraft the limited ability to 'fly' a non ballistic trajectory during re-entry. Almost certainly the station taxi will do the same.) There were also considerable supplies carried in the service module.
 
Supplies save less than you might think because of the increase in crew size. Both will require roughly 42 person days of supplies - 3 crew times 14 days for Apollo, 7 crew times 6 days for the new module. Yes, six days. Two days to fly to the station, two days to fly from the station to re-entry, and two days for contingencies. (No, you can't shorten the fly to or fly home portions, those are dictated by orbital mechanics.)
 
Considerable weight savings will also come from the the weight reduction in the electrical and electronic systems in the past forty or fifty odd years. (The Apollo guidance system, which weighed a couple of hundred pounds, would weigh less than ten today.)
 
But real biggie in terms of weight savings will be in the thinner heat shield (Apollo's needed to be able to stand a high velocity return from the moon, which a station taxi will not). Additional weight can be saved by using modern materials (composites, AL/Li alloys, etc.) for structural components. More weight can also be saved by shrinking the propulsion system - a station taxi has no need to brake itself into lunar orbit or blast itself free from the same.