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Compression Ratio

The compression ratio indicates how many times we reduce the air volume.

What is it?

When we compress air, we reduce its volume to increase its pressure. The compression ratio tells us by how much.

Formula

CR=Pabs,finalPabs,initialCR = \frac{P_{abs,final}}{P_{abs,initial}}

Or in practical terms:

CR=Pgauge+PatmosphericPatmosphericCR = \frac{P_{gauge} + P_{atmospheric}}{P_{atmospheric}}

Practical Example

Data:

  • Suction pressure: 14.7 PSIA (atmospheric at sea level)
  • Discharge pressure: 100 PSIG

Calculation:

Pabs,discharge=100+14.7=114.7 PSIAP_{abs,discharge} = 100 + 14.7 = 114.7 \text{ PSIA} CR=114.714.7=7.8CR = \frac{114.7}{14.7} = 7.8

The air is compressed 7.8 times.

Why does it matter?

1. Efficiency

CREfficiencyTemperature
Low (3-5)HighModerate
Medium (6-9)ModerateHigh
High (10+)LowVery high

2. Compression Stages

Total CRRecommended stages
Up to 41 stage
4 - 162 stages
16+3+ stages

3. Contaminant Concentration

If atmospheric air has 1 mg/m³ of particles and CR=10CR = 10:

Cfinal=Cinitial×CR=1×10=10 mg/m3C_{final} = C_{initial} \times CR = 1 \times 10 = 10 \text{ mg/m}^3
Contaminants multiply

Everything in the inlet air (dust, water, oil) concentrates by the compression factor.

Typical Compression Ratios

ApplicationPressureApproximate CR
Blowers0.5 bar1.5
Low pressure3 bar4
Standard industrial7 bar8
High pressure40 bar40
PET bottles40 bar40
Breathing200 bar200