GAS COMPRESSOR PERFORMANCE

INPUT   DATA EXAMPLE Of Input/Output

Title  

Gas flow rate   lb/hr  

    

Suction pressure  psia 
Discharge pressure   lb/ft3
Inlet temperature   ° F
Adiabatic exponent Cp/Cv 
Molecular weight of gas  lb/lb-mole
Average compressibility factor 
Polytropic efficiency  

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OUTPUT   VARIABLES   &   GRAPHS

Variables   Values   Units
 ♦  Compression ratio    
 ♦  Polytropic head   ft
 ♦  Gas discharge temperature   °F
 ♦  Gas horsepower   hp
 ♦  Mechanical losses   hp
 ♦  Total brake horsepower   hp
 ♦  Work done   lb-mole/hr
THEORY  &   FORMULAE

Performance of Polytropic Compressors

Compressors are gas movers. It is a mechanical device that increases the pressure of a gas by reducing its volume. Compression of a gas naturally increases its temperature. There are two basic types of compressors: the reciprcating compressor which is well suited for high pressures and low flow rates, and the centrifugal compressor which is preferred for low pressures and high rates.
Compressors are rated in height of compression head developed. From the point of view of thermodynamics, real compression processes are polytropic processes, which lie somewhat between adiabatic and isothermal compression. The polytropic head and discharge temperature are given from the following expressions (from which horsepower can be derived):

    

where
     H = polytropic head
     Z = average compressibility factor
     R = universal gas constant
     P1 = suction gas pressure
     P2 = discharge gas pressure
     Rc = compression ratio = P2/P1
     T1 = suction gas temperature
     T2 = discharge gas temperature
     Mw = molecular weight of gas
     n = polytropic exponent = Cp/Cv
     Cp = gas specific heat at constant pressure
     Cv = gas specific heat at constant volume

Tips

    ◊ Use link EXAMPLE Of Input/Output  to demo data entry expectations and results; you may edit & use it as starting point

BIBLIOGRAPHY