Adiabatic Compression of Pure Gases
Adiabatic Compression of Pure Gases
In this Demonstration, -butane is compressed adiabatically from 1 bar and 50 °C to user-set values for the discharge stream pressure and the compressor efficiency . Click the "sketch of apparatus" button to determine the outlet stream temperature (expressed in °C) and the power consumed (expressed in kW). The inlet molar flow rate of -butane supplied to the compressor is =1kmol/s. You can select from one of three cubic equations of state (Redlich–Kwong, Soave–Redlich–Kwong (SRK), or Peng–Robinson). An ideal gas at 1 bar and 298.15 K is taken as the reference state for computing the enthalpy and entropy for the system flow streams. In the temperature-entropy (T-S) diagram, the blue curve denotes the inlet stream isobar () and the red curve the discharge stream isobar. A limiting compression transformation on the T-S diagram is shown in dashed green. You can clearly see the difference between the ideal case (shown by a vertical dashed green line), when the compressor is isentropic (i.e., ), and a more realistic case, where the efficiency is less than 100% (shown by a tilted dashed green line).
n
η
n
n
H
S
P=1bar
η=100%