Enthalpy

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In thermodynamics, enthalpy is the sum of the internal energy U of a system and the product of pressure p and V of the system,

Enthalpy used to be called "heat content", which is why it is conventionally indicated by H.

The work term pV has dimension energy, in SI units joule, and H has the same dimension. Enthalpy is a state function, a property of the state of the thermodynamic system and its value is determined entirely by the temperature T, pressure p, and composition NA, NB, ... (molar amounts of substances A, B, ... ) of the system and not by its history.

Internal energy

Often one considers a system with thermal conducting walls, so that (small) amounts of heat ΔQ can go through the wall in either direction: if ΔQ > 0, heat enters the system and if ΔQ < 0 heat leaves the system. Also one usually considers one manner of performing (small) amount of work ΔW by or on the system:

If dV > 0 the volume of the system increases and work is performed by the system, if dV <0, work is performed on the system, hence the internal energy increase of the system by the work term obtains a minus sign:

Notes:

  • Other forms of work are possible, for instance magnetization ΔW = H•dM, inner product of magnetic field (a vector) H—not to be confused with enthalpy H—with small change in molar magnetization dM (also a vector).
  • The symbol Δ indicates a small quantity (sometimes called an inexact differential), not necessarily a differential. The symbol d indicates a differential of a differentiable function
  • Remarkable about equation (1) is that the sum of two small quantities (inexact differentials)

gives a differential of a state function. This is why equation (1) is the first fundamental law (postulate) of thermodynamics

To be continued