Recover Heat from Compressors

Gas compression is a common industrial and commercial process. Among its most typical applications are providing compressed air in industrial plants and air conditioning and refrigeration in numerous industrial, commercial and residential systems.

An interesting aspect of the gas compression process is that although while the objective of the process is to increase the pressure of a gas, a significant fraction of the input energy (estimated to be between 80% and 90%) is consumed in raising the gas temperature. When compressing air, about 8 hp of electricity are required to produce 1 hp of compressed air. This provides an opportunity for heat recovery, which in this era of increasing energy costs, can be financially attractive. In the case of air compression, an estimated 50,000 Btu/hr of thermal energy is available to be recovered for every 100 cfm of air provided.

Here Some Pressure, There Some Temperature

Without going into the thermodynamic details, don’t equate the temperature rise in the gas being compressed as process inefficiency. A perfectly efficient compression process done on a perfect gas would still exhibit a temperature rise – it’s the nature of the universe we live in. One way to think of it is to imagine that when we add energy to a gas, it gets stored in two separate compartments. One compartment is temperature and the other is pressure. For a given amount of energy added, the fraction that goes into each compartment is a fixed property of the gas being compressed. Inefficiencies in the compression process result in the temperature increasing more than it would for the perfect process.

Also, while the increase in gas temperature with increased pressure can be a detriment, in refrigeration systems, it’s the key element that makes the systems work at all. Low-temperature vapor from the refrigeration system evaporator is compressed and its temperature increases to above ambient levels. This allows the system to reject heat to the outside – which is the whole [i]raison d’etre[i] of the system.

Figure 1. Ducting routes heat into the plant in the winter, out the roof in the

Figure 1. Ducting routes heat into the plant in the winter, out the roof in the summer.

How to Cash In

With all that excess energy lying around, you’d think it would be easy to recover some. Amazingly, about 80% to 90% of the input energy is up for grabs, with typical recovery rates between 30% to 90% of what’s available. The determining factors for compressor heat recovery are the same as for any heat recovery process. At a minimum, we need to determine three things: at what temperature is the energy available; at what temperature do we need the energy; and how much of it is there?

One common way to recover the heat of compression is to duct the air leaving your air-cooled aftercooler or lubricant cooler to provide heated process or space heating air. A booster fan might be necessary to ensure that the pressure drop in the duct doesn’t reduce the air flow across the aftercooler. Figure 1 shows the ducting system used in a manufacturing plant. The arrangement ducts heated air to the plant during the winter and out the roof during the summer.

Seasonal Order

Figure 2. Ducted heat from a nearby compressor improves working conditions at th

Figure 2. Ducted heat from a nearby compressor improves working conditions at this loading dock.

Sometimes, simplicity is the best way to go. In the plant shown in Figure 2, the air compressor is close to the loading dock. All that was needed to recover compressor heat for the dock was a short duct run vented into the dock area.

More Comfortable Dockers

Potential heat recovery rates for space heating can be high. The U.S. Department of Energy’s Compressed Air Challenge Source Book indicates that heat recovery efficiencies of 80% to 90% are common. But remember, you can only recover as much heat as you need. Capturing anything more raises the space temperature above the set point and, unless that’s tolerable, you’ll need to put a thermostatic control on your heat recovery system to duct the excess heat outside.

Relevant Tags compressors, electricity, heat, hvacr,

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