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Heat Recovery

A conventional air compressor converts approximately 85-94% of electrical energy into heat. This heat is normally wasted to the atmosphere. Heat recovery captures this energy for useful purposes.

The Potential

Compressor Energy Balance

Energy balance diagram for an air compressor, illustrating how most electrical energy is converted into recoverable waste heat

For every 100 kW consumed by a compressor, only 4 kW converts to useful work. The remaining 96% dissipates as heat — energy that, without a recovery system, is lost entirely.

Available Energy

Compressor SizeAvailable HeatEquivalent
50 HP (37 kW)120,000 BTU/hHeat 2,700 ft²
100 HP (75 kW)240,000 BTU/hHeat 5,400 ft²
200 HP (150 kW)480,000 BTU/hPreheat boiler
500 HP (375 kW)1.2 MMBTU/hIndustrial process

Heat Sources

Lubricated Compressor

┌─────────────────────────────────────────────────────────┐
│                 LUBRICATED COMPRESSOR                   │
│                                                          │
│   Inlet air ────────────────────────────────► Air      │
│        77°F           Compression             discharge │
│                          ↓                    185°F    │
│                    ┌───────────┐                ↓      │
│                    │           │          Aftercooler  │
│                    │    Oil    │ ◄───────     ↓       │
│                    │  176-212°F│         Condensate   │
│                    │           │                       │
│                    └─────┬─────┘                       │
│                          │                             │
│                    Oil cooler                          │
│                          │                             │
│                    ┌─────▼─────┐                       │
│                    │RECOVERABLE│ ◄── 80-90% of input  │
│                    │   HEAT    │     energy           │
│                    └───────────┘                       │
└─────────────────────────────────────────────────────────┘

Heat Location

Source% of Total HeatTemperature
Oil72-80%176-212°F
Aftercooler10-15%104-122°F
Motor4-8%104-140°F
Radiation2-4%-

Applications

1. Space Heating

Winter:                            Summer:

    ┌─────────────┐                    ┌─────────────┐
    │ Compressor  │                    │ Compressor  │
    └──────┬──────┘                    └──────┬──────┘
           │                                  │
     ┌─────▼─────┐                     ┌─────▼─────┐
     │ Hot air   │                     │  Air to   │
     │  duct     │                     │ outdoors  │
     └─────┬─────┘                     └───────────┘

     ┌─────▼─────┐
     │ Workspace │
     │           │
     └───────────┘

Typical ROI: 6-18 months

2. Water Preheating

                    ┌─────────────────────┐
                    │   Plate heat        │
    Hot oil ════════│   exchanger         │════════► Oil
    194°F           │                     │           cooled
                    │   ┌─────────────┐   │
                    │   │             │   │
    Cold water ─────│───│             │───│──────► Hot water
    59°F            │   │             │   │        140-158°F
                    │   └─────────────┘   │
                    └─────────────────────┘

Applications:

  • Process water
  • Boiler preheat
  • Domestic hot water
  • Industrial washing

3. Industrial Processes

ProcessTemperatureApplication
Drying122-176°FWood, grain, paint
Washing104-140°FParts, bottles
Tank heating104-158°FChemicals, food
Thawing104-122°FFood products

Recovery Systems

Air Recovery

The simplest method:

                Compressor

              ┌─────┴─────┐
              │   Fan     │
              │   │       │
              │   ▼       │
              │ ┌───────┐ │
              │ │Radiator│ │
              │ └───┬───┘ │
              └─────┼─────┘

         ┌──────────┼──────────┐
         │          │          │
    Damper      Damper     Damper
    winter      summer      mix
         │          │          │
         ▼          ▼          ▼
    To space    To outdoors  Proportional
ComponentFunction
Winter damperDirects hot air indoors
Summer damperExhausts hot air outdoors
Mix damperTemperature control
ThermostatAutomatic control

Water Recovery

                      ┌──────────────────┐
                      │ Oil/water heat   │
    Oil ══════════════│   exchanger      │══════════════► Oil
    185°F             │                  │                122°F
                      │ ┌──────────────┐ │
                      │ │              │ │
    Water ────────────│─│              │─│────────────► Water
    inlet 59°F        │ │              │ │             outlet 158°F
                      │ └──────────────┘ │
                      └────────┬─────────┘

                         Water pump

Components:

  • Plate heat exchanger (oil/water)
  • Circulation pump
  • Control valve
  • Storage tank (optional)

Calculations

Recoverable Energy

Q=kWcompressor×ηrecovery×hours×3,412 BTU/kWhQ = kW_{\text{compressor}} \times \eta_{\text{recovery}} \times \text{hours} \times 3{,}412 \text{ BTU/kWh}

Where:

  • QQ = Recoverable energy (BTU/year)
  • η\eta = Recovery efficiency (0.5-0.9)

Example:

  • Compressor: 100 HP (75 kW)
  • η\eta: 70%
  • Hours: 8,000/year
Q=75×0.70×8,000×3,412=1,433 MMBTU/year=420,000 thermal kWh/yearQ = 75 \times 0.70 \times 8{,}000 \times 3{,}412 = 1{,}433 \text{ MMBTU/year} = 420{,}000 \text{ thermal kWh/year}

Economic Savings

Savings=Q×Fuel costBoiler efficiency\text{Savings} = \frac{Q \times \text{Fuel cost}}{\text{Boiler efficiency}}

Example:

  • Q=1,433Q = 1{,}433 MMBTU/year
  • Natural gas: $10/MMBTU
  • Boiler efficiency: 80%
Savings=1,433×100.80=$17,912/year\text{Savings} = \frac{1{,}433 \times 10}{0.80} = \$17{,}912\text{/year}

Typical ROI

SystemInvestmentAnnual SavingsPayback
Air ducts (simple)$2,000-5,000$3,000-8,0006-12 months
Potable water$5,000-15,000$5,000-15,00012-18 months
Industrial process$10,000-50,000$15,000-60,00012-24 months
Integrated system$20,000-100,000$30,000-150,00018-36 months

Considerations

Limitations

FactorImpact
Variable heat demandMay not coincide with operation
Distance to useTransport losses
Required temperatureLimit ~158°F for water
Summer operationNo heating demand

Requirements

SystemRequirement
Heat exchanger spaceNear compressor
PipingInsulated
ControlThermostats, valves
MaintenancePeriodic cleaning
Quick Evaluation

If your plant spends more than $20,000/year on heating and has compressors larger than 50 HP operating more than 4,000 hours/year, heat recovery is probably cost-effective.