Bill is correct, but you get very fragile rockets and minimum gauge problems
this way.
Not impossible, just... Be careful.
Sent from my iPhone
On Sep 2, 2016, at 12:04 PM, William Claybaugh <wclaybaugh2@xxxxxxxxx> wrote:
Zachary:
You can do as little as 50 psia against vacuum and 150 psia to sea level air;
look into Bob Truax's Sea Dragon work for reference.
That said, note that he was planning on using Lox / LH2 to recover the lost
Isp. But as a general rule mass fraction improves as the operating pressure
of a pressure fed liquid drops...and mass fraction has an exponential effect
on performance, whilst Isp is merely linear.
Bill
On Friday, September 2, 2016, Zachary Martinez <znm3m8@xxxxxxx> wrote:
Hello all,
Are there any issues operating at a relatively low chamber pressure for an
engine ~180-220psi other than the poor Isp. For a pressure fed rocket with a
relatively high thrust to weight ratio the benefits of using a lower chamber
pressure are really tempting, but I imagine there are some design challenges
that I am unaware of. My main concerns are difficult ignition or possible
flame out but I don't really know.
Thank you,
Zachary Martinez
Aerospace Engineering | Missouri S&T