- #1
Noisia
- 1
- 0
Hi there guys,
Sorryto make my first post on here a request, but i am a little puzzled at the moment by this latest question I have been set! My lecture notes do not seem to cover this in any detail at all, and resources on the internet are either avoiding me or i am just plain blind!
1. Inlet blade angle : -55 degrees, Outlet blade angle : 0 degrees, mass flow rate of air : 4.32 kg/s, rotor inlet radius : 45mm, rotor radius at tip : 0.14m, outlet dimensions are r2 : 0.2m and h2 : 22mm, rotor has 21 blades, rotation speed is 15000rpm. Air enters compressor at temperature of 300K and pressure of 1.0atm.
Starting with a guessed value for c1, and using an iterative process, find Ma1 and the inlet velocity triangle satisfying the prescribed mass flow rate
2. As for equations I am not even sure what i should be using. These are what i have so far:
c = u + v
M1 = V1 / ([gamma]*R*T)^1/2
Then using v = V(flow rate) / A
I think that there is a fundamental error in my working so far, whether the equations are totally in the wrong direction i don't know! If you guys could just set me in the right direction it would be much appreciated as this has been doing my head in for a while now!
Regards
Sorryto make my first post on here a request, but i am a little puzzled at the moment by this latest question I have been set! My lecture notes do not seem to cover this in any detail at all, and resources on the internet are either avoiding me or i am just plain blind!
1. Inlet blade angle : -55 degrees, Outlet blade angle : 0 degrees, mass flow rate of air : 4.32 kg/s, rotor inlet radius : 45mm, rotor radius at tip : 0.14m, outlet dimensions are r2 : 0.2m and h2 : 22mm, rotor has 21 blades, rotation speed is 15000rpm. Air enters compressor at temperature of 300K and pressure of 1.0atm.
Starting with a guessed value for c1, and using an iterative process, find Ma1 and the inlet velocity triangle satisfying the prescribed mass flow rate
2. As for equations I am not even sure what i should be using. These are what i have so far:
c = u + v
M1 = V1 / ([gamma]*R*T)^1/2
Then using v = V(flow rate) / A
I think that there is a fundamental error in my working so far, whether the equations are totally in the wrong direction i don't know! If you guys could just set me in the right direction it would be much appreciated as this has been doing my head in for a while now!
Regards