Gas compressor

A gas compressor is a mechanical device that increases the pressure of a gas by reducing its volume. Compression of a gas naturally produces heat.

Compressors are loosely related to pumps: both increase the pressure on a fluid and both can transport the fluid through a pipe. As gases are compressible, the compressor also reduces the volume of a gas, whereas the main result of a pump raising the pressure of a liquid is to allow the liquid to be transported elsewhere.

Contents

Compressor designs

Missing image
Air_compressor.jpg
Small reciprocating air compressor. Air is compressed by two pistons into the storage tank. It is powered by a electric motor (blue).

Some important designs of compressors include:

  • Reciprocating compressors—uses pistons driven by a crankshaft. These are commonly seen in automotive applications and are typically for intermittent applications. They are both stationary and portable and can be single or multi-staged. Their application can be from fractional to more than 100 hp (75 kW) and from low pressure to very high pressure (>5000 psi or 3.5 MPa).
  • Rotary screw compressors—uses two meshed rotating positive-displacement helical screws to force the gas into a smaller space. These are usually for continuous, commercial and industrial applications and are both stationary and portable. Their application can be from 5 hp (3.7 kW) to over 500 hp (375 kW) and from low pressure to very high pressure (>1200 psi or 8.3 MPa). They are commonly seen with roadside repair crews powering airtools. This type is also used for many automobile engine superchargers because it is easily matched to the induction capacity of a piston engine.
  • Centrifugal compressors—a vaned rotating disk or impeller in a shaped housing forces the gas to the rim of impeller increasing the velocity of the gas. A diffuser (divergent duct) section converts the velocity energy to pressure energy. These are used for continuous, heavy industrial uses and are usually stationary. Their application can be from 100 hp (75 kW) to thousands of horsepower. With multiple staging, they can achieve extremely high output pressures greater than 10,000 lbf/in² (69 MPa). Many large snow-making operations (like ski resorts) use this type of compressor. They are also used in internal combustion engines as superchargers and turbochargers. These form one of the main compressor sections of a gas turbine engine.
  • Axial-flow compressor—a series of fans spinning on a shaft in a tapered tube draw in gas at one end and, with the aid of interstage stators (a series of convergent and divergent ducts), compress it and output it at the other end. Usually for very high flow, low pressure (up to about 310 psi or 2.1 MPa) applications and are almost always multi-staged. This is the most common compressor in large gas turbine engines.
  • Scroll compressor—similar to a rotary screw device, this one includes two interleaved spiral-shaped scrolls to compress a gas. Its output is more pulsed than the latter and this factor has caused its declining industrial use. Can be found in automotive use as a supercharger.

Applications

Gas compressors are used in various applications where either higher pressures or lower volumes of gas are needed:

Temperature

Charles' law says "when a gas is compressed heat is generated".

There are three possible relationships between temperature and pressure in a gas undergoing compression:

  • isothermal - gas at final stage of compression is same temperature as at beginning of compression. In this cycle, heat is removed at the same rate as it is added by the work of compression. This is impractical for a working machine.
  • adiabatic - This assumes that there is no heat transfer, into or out of the process, and that all work added is expended in creating a pressure rise. Theoretical temperature rise is T2 = T1·Rc(K-1/K), with T1 and T2 in degrees Rankine or kelvins, and K = ratio of specific heats (approximately 1.4 for air). The rise in air and temperature ratio means compression does not follow a simple pressure to volume ratio. This is less efficient, but quick.
  • Polytropic - This assumes that heat may enter or leave the process, and that work added can appear as both increased pressure (useful work) and increased temperature above adiabatic (losses due to cycle efficiency). Cycle efficiency is then the ratio of temperature rise at theoretic 100 percent (adiabatic) vs. actual (polytropic).

Staged compression

Since compression generates heat, the compressed air is to be cooled between stages making the compression less adiabatic and more isothermal. The inter-stage coolers cause condensation meaning water separators with drain valves are present. The compressor flywheel may drive a cooling fan.

For instance in a typical diving compressor, the air is compressed in three stages. If each stage has a compression ratio of 7 to 1, the compressor can output 343 times atmospheric pressure (7 x 7 x 7 = 343).

Prime movers

There are many options for the "prime mover" or motor which powers the compressor:

fr:Compresseur nl:Compressor pl:Sprężarka

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