A polytropic process is a thermodynamic process that obeys the relation:
where p is the pressure, V is volume, n is the polytropic index, and C is a constant. The polytropic process equation can describe multiple expansion and compression processes which include heat transfer.
Some specific values of n correspond to particular cases:
In addition, when the ideal gas law applies:
Where is the ratio of the heat capacity at constant pressure () to heat capacity at constant volume ().
where C is a constant, , , and with the polytropic coefficient .
For certain values of the polytropic index, the process will be synonymous with other common processes. Some examples of the effects of varying index values are given in the following table.
|n < 0||--||Negative exponents reflect a process where work and heat flow simultaneously in or out of the system. In the absence of forces except pressure, such a spontaneous process is not allowed by the second law of thermodynamics; however, negative exponents can be meaningful in some special cases not dominated by thermal interactions, such as in the processes of certain plasmas in astrophysics, or if there are other forms of energy (e.g. chemical energy) involved during the process (e.g. explosion).|
|n = 0||Equivalent to an isobaric process (constant pressure)|
|n = 1||Equivalent to an isothermal process (constant temperature), under the assumption of ideal gas law, since then .|
|1 < n < ?||--||Under the assumption of ideal gas law, heat and work flows go in opposite directions (K > 0), such as in vapor compression refrigeration during compression, where the elevated vapour temperature resulting from the work done by the compressor on the vapour leads to some heat loss from the vapour to the cooler surroundings.|
|n = ?||--||Equivalent to an isentropic process (adiabatic and reversible, no heat transfer), under the assumption of ideal gas law.|
|? < n < ?||--||Under the assumption of ideal gas law, heat and work flows go in the same direction (K < 0), such as in an internal combustion engine during the power stroke, where heat is lost from the hot combustion products, through the cylinder walls, to the cooler surroundings, at the same time as those hot combustion products push on the piston.|
|n = +?||Equivalent to an isochoric process (constant volume)|
When the index n is between any two of the former values (0, 1, ?, or ?), it means that the polytropic curve will cut through (be bounded by) the curves of the two bounding indices.
For an ideal gas, 1 < ? < 5/3, since by Mayer's relation