Find (integrating) the compressor work expression according to the Pvn interchange and express the result in terms of n, R, T1, P1, P2. b) Find the mass flow and outlet temperature of the air. c) Find the total irreversibility by applying the exergy balance. d) Find the isentropic efficiency of the compressor (k=1.4). e) In case of using two compressors with intercooler, the intermediate pressure (Px) is in terms of P1 and P2. take the derivative and find the total compressor power in this case and add it to a single compressor. Determine your gain in kW according to ...
(termodynamıc)
An 8 kW compressor removes the air at 22 oC and 100 kPa conditions reversibly (P v n = constant) to 1600 kPa pressure. In addition, heat transfer to the surrounding environment at 22 oC
is happening. (n = 1.33)
a) Find (integrating) the compressor work expression according to the Pvn interchange and express the result in terms of n, R, T1, P1, P2.
b) Find the mass flow and outlet temperature of the air.
c) Find the total irreversibility by applying the exergy balance.
d) Find the isentropic efficiency of the compressor (k=1.4).
e) In case of using two compressors with intercooler, the intermediate pressure (Px) is in terms of P1 and P2.
take the derivative and find the total compressor power in this case and add it to a single compressor.
Determine your gain in kW according to ...
Step by step
Solved in 4 steps with 4 images